KR20100025628A - The method of providing more bigger effect of button - Google Patents

Abstract

PURPOSE: A method for increasing button efficiency of electronic equipment is provided to improve convenience of a task by arranging a button portion having high usage frequency more near a display unit. CONSTITUTION: A button with high usage frequency is arranged closely to a display unit. A combination inducing button of a keyboard is arranged in the upper side of the keyboard. A button 1 and a button 3 are appointed for the combination inducing button which writes a second(or a first) letter. A button 4 and a button 6 are appointed for the combination inducing button which writes a third(or the second) letter. A button 7 and a button 9 are appointed for the combination inducing button which writes a fourth(or the third) letter. A button 2 and a button 8 are appointed for the combination inducing button which writes a sixth(or the fifth) letter. A button 5 and a button 0 are appointed for the combination inducing button which writes a seventh(or the sixth) letter.

Description

The method of providing more bigger effect of button

The present invention relates to a method for increasing button efficiency of an electric and electronic device, and more particularly, to improve convenience and efficiency by improving inconveniences when working with buttons such as a computer keyboard, a telephone keyboard, and an electronic calculator. .

For effective description of the invention it is mentioned in the paragraph "Details of the invention".

The present invention relates to a method of increasing the button efficiency of a device when the number of buttons is smaller than a work type, and a method of pushing buttons (short, long, double click, triple click, etc.), which is a method that has already existed in order to operate with one hand. While maintaining the number of presses), the work is performed by the method of the present invention, and in particular, by providing a separate method while using the existing button operation method without adding hardware parts such as buttons to the existing product. The purpose is to increase the versatility of the buttons, to reduce the working time, and to improve the convenience by allowing easy and new work.

In order to achieve the above object, the present invention provides a method for increasing the operation of a part or the whole of a device for performing an operation by pressing a button, the combination or order of combination of two or more buttons that are on at the same time, pressing Function buttons, letter buttons, not combination induction buttons by methods that allow the user to perform a predetermined task even by a combination situation such as a method (the designation of the combination or combination associated with the task can be determined by the manufacturer or a non-manufacturer). In addition, the combination-induced buttons are to be a more limited number of buttons, more convenient, faster work.

Although a button is also designated as a combination-inducing button that, when combined with another button, induces a certain kind of action (for example, writing a second letter assigned to another button), Two or more manufacturers or two combination-inducing buttons that induce the same kind of work, ie when another button is combined with the other buttons mentioned above, in combination with the other buttons mentioned above. Present a method by which one or more non-manufacturer-specific events exist, and

What kind of action does the button induce when the button acts as a combination

It doesn't change depending on the spatial position relationship with other buttons

We can even suggest how to always specify the same regardless of the spatial position with other buttons.

Some buttons and another are both text buttons and can improve convenience and speed up text input when in text writing mode.

According to the present invention as described above, in a device having a display unit and a button unit, the more frequently used button unit among the button unit is arranged closer to the display unit to improve the convenience of the work.

In other words,

In the case of a calculator, the distance between the display unit and the numeric button-arithmetic symbol button unit is close, so that the focus range of the eye is less, so that the tiredness is less felt, and the convenience is reduced. You can also shorten the working time,

In the case of telephones, keep the distance between the display part of the telephones and the character button part close.

First, the eye focusing range is reduced to make you feel less tired and convenient to reduce the probability of typo and easy to check through the display to shorten the working time,

Secondly, it is possible to hold the device stably and to naturally press the letter button within the range where the bending angle of the thumb is not inconvenient.

In the case of a computer keyboard, the combination induction button is arranged on one or two rows of the keyboard, that is, on the upper side of the keyboard, and the combination induction button is pressed with a thumb other than a thumb (especially a little finger). It is convenient to perform the combination induction button operation with one hand, and in case of the toggle key, the mode change signal of a different signal is assigned to each mode assigned to the toggle key, so that the mode change can be reliably performed at will. .

Therefore, even if the current mode is mistaken that the desired mode matches, the misoperation does not occur even if a change signal to the desired mode is given to the desired mode. Also, if you think you are unsure about the current mode, you can give a change signal to the mode you want and then work on it. There is no need to perform an operation to check the mode.

In addition, in button operation of electronic equipment including telephones

By applying the method of the present invention, the conventional method in which the buttons of the device are divided into a combination induction button, a function button, and a letter button is applied. By using a limited number of button combinations or combinations of buttons, you can add programs almost without adding buttons to existing products without using the existing button operation method, but without going through the menu screen by button combinations or combinations. Other ways to increase the number of tasks related to the currently turned on button and to reduce the number of button presses required to perform a task, such as performing a predetermined task, and to perform a new task command by a button combination or a combination situation. , Sometimes even waiting for no action This allows users to designate the most convenient buttons for saving time and progressing work, thus improving work convenience and saving work time.

According to the present invention as described above, in a device having a display unit and a button unit, the more frequently used button unit among the button unit is arranged closer to the display unit to improve the convenience of the work.

In other words,

In the case of a calculator, the distance between the display unit and the numeric button-arithmetic symbol button unit is close, so that the focus range of the eye is less, so that the tiredness is less felt, and the convenience is reduced. You can also shorten the working time,

In the case of telephones, keep the distance between the display part of the telephones and the character button part close.

First, the eye focusing range is reduced to make you feel less tired and convenient to reduce the probability of typo and easy to check through the display to shorten the working time,

Secondly, it is possible to hold the device stably and to naturally press the letter button within the range where the bending angle of the thumb is not inconvenient.

In the case of a computer keyboard, the combination induction button is arranged on one or two rows of the keyboard, that is, on the upper side of the keyboard, and the combination induction button is pressed with a thumb other than a thumb (especially a little finger). It is convenient to perform the combination induction button operation with one hand, and in case of the toggle key, the mode change signal of a different signal is assigned to each mode assigned to the toggle key, so that the mode change can be reliably performed at will. .

Therefore, even if the current mode is mistaken that the desired mode matches, the misoperation does not occur even if a change signal to the desired mode is given to the desired mode. Also, if you think you are unsure about the current mode, you can give a change signal to the mode you want and then work on it. There is no need to perform an operation to check the mode.

In addition, in the operation of buttons of electronic devices including telephones, there are only a few of the advantages mentioned later in the character input method of the present invention.

1. As the biggest advantage, the method of the present invention can be used independently, but other character input mode (multi-tap, 'T9, etc.', various Hangul input methods (Samsung Cheonjiin, LG Electronics EZ, etc.) In the present invention, the method of the present invention can be used simultaneously with other character input methods without changing the character input mode, and in the meantime, the method of maximizing the efficiency of the other character input methods has the characteristic of coexistence and harmony without being exclusive with other character input methods. So there is no risk of applying the method of the present invention.

In particular, it is difficult to solve the inconvenience that it is difficult to pick out a lot of candidate words when inputting a search word, which is the biggest disadvantage of 'T9', and the word that is not in the DB should be changed by changing the character input mode. That is, in the letter input mode such as 'T9', you can enter the definite letters, unknown letters or special characters within 2 letters without changing the letter input mode. It is possible to minimize the search term input time using unknown letters, and even words that are not in the DB can be entered directly by entering all spellings as final letters without changing the mode in the letter input mode such as 'T9'.

Therefore, ideographs such as Chinese characters can be easily entered.

In the multi-tap mode, you can use the multi-tap method as it is, but you can use this method to enter all the letters within 2 letters, and when you enter the letters assigned to the same button consecutively, the right arrow or 2 You can eliminate the wait for a second.

2. If you assign a total of 90 letters by 9 letters to 10 buttons from 0 to 9, you can directly enter the first letter with a single stroke, and the remaining letters can be easily entered with a combination of two strokes consisting of double-click or single stroke. (No need for long press)

Pressing more than 3 strokes or long press on any phoneme can resolve the problem that makes you feel a lot more uncomfortable than 2 strokes.

So, when you input Hangul, you can assign all 40 phonemes and input all phonemes within 2 Thai. Conventionally, Hangeul is a complex phoneme is a simple phoneme by combining a number of 3 to 5 strokes to form a complex phoneme while entering the characters, and can only break the stereotype that tries to do so. However, only the phonemes that can be generated with 3 to 5 strokes in the existing Hangul input method are additionally assigned to the completed type, and the existing method may be used as it is, or the application of the method of the present invention may be concurrently operated.

Of course, Japanese (50), Hindi (46) and Thai (76) more characters are also available.

For this reason, Korean and Japanese, which are difficult to apply a character input method such as "T9" due to a large number of irradiation changes, can be easily input by applying this method even in the multi-tap mode.

About 20 ~ 30 frequently used special characters can be assigned to the button immediately after the normal character, and can be entered within 2 letters without changing the mode in the normal character mode.

It is expected to be the fastest among text input methods on small keypads such as mobile phones.

3. It can minimize the range of finger movement and the interference between fingers.

4. It is good to apply to QWERTY keyboard, but it is essential to low and mid price device with small keypad instead of QWERTY keyboard. This is because the character input speed of QWERTY keyboard is close.

5. There are many other advantages.

Hereinafter, a method of increasing the button efficiency of the electric and electronic device of the present invention will be described in detail.

This application summarizes the following four areas to improve the convenience and efficiency by improving the inconvenience when working with buttons, such as computer keyboard, telephone keyboard, electronic calculator board.

First, place frequently used buttons of calculator and phone close to the display

Second, place the combination induction button on the top of the computer keyboard

Third, improve the operation method of the computer toggle key

Fourth, create new work by combining buttons of other electronic devices (especially focusing on character input method)

In the following description, the first to fourth parts sequentially represented by the AAA part, the BBB part, the CCC part, and the DDD part represent the same fields.

* For the purpose of understanding, the background and the composition and effects of the present invention will also be described while comparing with the prior art.

The term of the first improvement plan (hereinafter referred to as 'AAA part') is defined as follows.

First, as an example of a calculator

1. Display part: A normal liquid crystal screen belongs to a display part.

2. Numeric button part: area where the buttons assigned with numbers 0 ~ 9 are located

3.Arithmetic symbol button part: area where the addition, subtraction, multiplication, division, and ENTER (= equal) buttons are located

4. Numeric button-arithmetic symbol button part: a word that combines the numerical button part and the arithmetic symbol button part

5.Other button part: Function button except numeric button and arithmetic operation button.

6.Button part: area where the group of buttons classified among similar ones such as number button-arithmetic symbol button part or other button part is located

7.Button parts: all areas except buttons

In addition, as an example of telephones,

1. Display part: A normal liquid crystal screen belongs to a display part.

2. Letters: words that combine letters, numbers, symbols, etc.

3. Function: Ability to do work except text display work

5. Character button part: the area where the buttons to write the letters are located (the area where the usual twelve buttons with 0 ~ 9, *, ＃ are assigned as the representative letters)

6. Function button part: the area where the buttons to work other than the writing work are located

* 7.Button part: The area where the group of buttons classified among the similar characteristics such as the character button part or the function button part is located

8. Buttons: All areas except buttons, ie buttons are located

9. Telephones: Words that integrate home telephones, mobile phones, PDAs, etc.

The term of the second improvement plan (hereinafter referred to as 'BBB part') is defined as follows.

1. Combination induction button: A key that makes certain functions impossible by itself, such as shift, control, alt, etc. If you press another key while you are pressed, it will do something. For example, if you press the P button while the control key is pressed, the print menu pops up, and many menus of the program are made possible by shortcut keys that require a combination induction button. Usually there are shift, control, and alt keys on the right and left side of the keyboard dial.

2. Left combination induction button: The combination induction button assigned to the left of the keyboard dial

3. Right combination induction button: The combination induction button assigned to the right side of the keyboard dial

4. Combination induction button operation: When you want to do any command through the combination induction button, press the combination induction button and other keys

5. Other than the thumb: Speaks the whole of a baby, ring finger, middle finger, index finger except thumb

The term of the third improvement plan (hereinafter referred to as 'CCC part') is defined as follows.

1.Letter: words that collectively include letters, numbers, symbols, spaces, etc.

Toggle key: A key in which one key performs more than one mode switch

Ex) Character mode switching key such as Korean / English key

CAPS LOCK key: English uppercase mode, English lowercase mode switch key

NUM LOCK key: Numeric mode and direction mode switching key when key is pressed in separate number plate of 3 row 3 column on the right corner of keyboard

SCROLL LOCK key: Setting scroll function, cancel switch key

INSERT key: Insert key to insert or modify character

3.Pressing method: Pressing key

Ex) danta: short press

Double-click: Press twice quickly in succession

Triple click: 3 short successes

Long stroke: long press (about 1 second or longer)

4. Simultaneous press of A key and B key: Pressing B key while pressing A key

5. ON: The contact is attached

6. OFF: The contact is off

7. Combination status: whether the key acts alone or in combination with other keys, or when it is combined, the order in which it was pressed, how it was pressed, etc.

8. Combination induction button: A button for inducing a combination with other keys, such as a control key, alt key, shift key, etc.

9. Mode checking device: device such as lamp which indicates which mode is the current mode

The term of the fourth improvement plan (hereinafter, referred to as 'DDD part') is defined as follows.

1. ON: The contact is attached

2. OFF: The contact is off

3. Letters: words that combine letters, numbers, symbols, etc.

4. Function: Ability to proceed with work (sometimes, it is ability to do work except text display work)

5. Letter button: When turned on, the button to write a letter or 12 buttons consisting of 0 ~ 9, *, #

6. Function button: When it is turned on, the button makes the work other than the writing work.

7. Combination Induction Button: Allows you to perform any action by a combination in which another button is turned on (or after it is turned off) after it is turned on, or until it is turned off (or turned off after another button is turned on). After) Button which lets you do any work by combination that oneself turns on.

That is, to operate the combination induction button preceding or following means that the manufacturer or a non-manufacturer decides arbitrarily.

Of course, a button for performing any operation even when the user is on (or after being turned off), that is, a combination induction button is not a combination induction button in the conventional method, but may be referred to as being a button for induction by the method of the present invention.

8. Buttons dedicated to combination induction (shift buttons): Combination induction buttons such as shift buttons, control buttons, and alt buttons.

9. Button + number (e.g. "button 3": means button 3 is assigned or button 3 is assigned)

10. Push method: short, long, double click, triple click, number of presses, etc.

11. Combination status: whether a button works alone or in combination with other buttons, or when it is combined, the order in which it was pressed, how it was pushed, etc.

12. Task: Any situation where there is a change in the equipment. For example, moving a cursor or writing a letter belong to a task.

13. A combination of buttons that have been assigned a specific task in advance: This can either be a shortcut to an existing task or a combination that will do a new task.

14. Existing button operation method: refers to the position of each button of the existing product, the letter assigned to each button, the button combination, etc. required for the user to do the work that you want to do and does not consider the on or off adjustment of the button related to the present invention. Way.

15. T9, etc .: Present the user with one or more words that can be formed by the combination of spells assigned to the on buttons even when the spelling is entered in an undefined state using the word DB, and the user desires the words among them. By speaking throughout the conventional way of selecting.

For example, in the case of entering letters, if one letter is assigned to one button even though several letters are assigned, the spelling can be made by inputting the spelling. When the device presents the user with one or more possible words, the user selects a word having the spelling desired by the user. Samsung's T9 mode, Motorola's iTAP mode, and Nokia's PREDICTIVE TEXT INPUT mode are all different. For example, in case of T9 type, when '4663' button is pressed, 'GHI' is assigned to '4', 'MNO' is assigned to '6', and 'DEF' is assigned to '3'. The device searches the dictionary database, and the device presents 'GONE', 'HOME', 'HOOD', 'HOOF', 'HONE', and 'GOOF' in order of frequency of use. This is the format.

16.Defined Characters: As a method used in the present invention to improve a character input method such as T9, the spelled letter is entered in the character input mode such as T9.

17. Candidate letters: Some letters assigned to a button when a letter button is turned on, as in the conventional T9 input method. If button 4 is turned on from above, 'G', 'H' and 'I' become candidate letters.

18. Unknown character: As a method used in the present invention to improve the character input method, such as T9, all characters assigned to all character buttons can be candidates. When searching on a computer, mainly '*' or '? ' Use One unknown letter may be substituted for two or more consecutive letters.

19 Combination: So far, the combination is only when the two buttons are on at the same time. However, if you use the combination buttons a lot, if you haven't mastered them yet, you can turn them on and off at the same time. In case of the wrong case, the first on-button is turned off and the next on-button is turned on within a predetermined time interval. In this case, if you want to turn on and off two buttons and input two letters, that is, make both buttons act as letter buttons, set the time when the first button is off and the time when the next button is on. It should be operated beyond the interval.

20. Alphabet: Phonemes of whole sound letters, including English alphabets or similar European characters or Korean characters.

21. Buttons: In addition to the type of buttons as well as intangible buttons such as touch pad and laser pad.

To describe the AAA in detail

In a device having a display unit and a button unit, a button unit having a low frequency of use is sandwiched between the display unit and the button unit, and thus, when the button of the device is pressed and the process of checking the display unit is repeated, Its movement range is wide and uncomfortable and tired, so it's easy to get a typo and it's hard to check through the display.

In the example of a calculator,

In order to explain the method of the present invention, the apparent part of the conventional calculator is divided into three components, firstly divided into a display part, a second number-arithmetic symbol button part, and a third other button part. . In the use of the calculator, the frequency of use of the numeric button-rule symbol button portion is much higher than that of the other button portion. Therefore, a lot of attention is focused on the number button-fourth arithmetic symbol button part and the display unit which displays the input contents. However, in the conventional calculator, the position of each component is shown in the display part at the top, the other button part in the middle, and the number button-rule symbol button part at the bottom, so that the focus of the eye moves from the top to the bottom. Often it reaches a wide range. Therefore, it is easy to feel tired and uncomfortable, so that typos are easy to come out, and it is difficult to check and check through the display unit, which takes a long time.

In addition, for example of telephones,

In order to explain the method of the present invention, the externally visible parts of the conventional telephones are divided into three components, firstly divided into a display unit, a second letter button unit, and a third function button unit.

First, in the use of telephones, the frequency of use of the character button portion is much higher than that of the function button portion. Therefore, much attention is focused on the character button unit and the display unit displaying the input contents. However, in the conventional telephones, the position of each component is located in the upper part of the display, the middle of the function button, and the lower part of the letter button so that the focus of the eye moves from the top to the bottom. There are many times. So it is easy to feel tired and uncomfortable because it is easy to make a typo, and it becomes difficult to check through the display, which takes a long time.

Second, in the case of holding the device of the phone and pressing the letter button at the same time with one hand, the letter button part is located at the bottom, so if you press the letter button part with your thumb, you need to hold the lower part of the phone unstable or If you hold the middle of the air flow, you must bend your thumb excessively downwards. The lower part of the device is held by only a part of the device is held in a stable state of holding the device, the risk of dropping the device and there are a lot of cases that actually fall, but holding the middle of the device and pressing the letter button part to bend your thumb excessively In many cases, the stability of holding the still hold is less comfortable to press the lower button among the letter button. After all, it is most inconvenient when you press the button assigned “*, ＃, 0”.

To explain how to solve the problems of the AAA part mentioned above

In a device having a display unit and a button unit, the more frequently used button unit among the button units is disposed closer to the display unit.

A. Example of Calculator

* To solve the problems of the prior art by making the distance between the display unit and the high-frequency number button-four arithmetic operation symbol button unit close. This problem can be solved by taking the display portion above, the number button-rule symbol button portion in the middle, and the other button portion below.

B. Example of the phone stream

In order to solve the conventional problems, the distance between the display unit and the frequently used character button unit is close, and the method of disposing the character button unit under the device is excluded. This may solve the conventional problem by placing the function button unit below the display unit and the letter button unit in the middle.

To describe the BBB in detail

If you want to work with combination buttons when using a computer keyboard, you have to press two or more keys. If you press the keys with both hands one by one, there will be no problem, but when you cannot use one hand, such as holding the mouse with one hand, or just want to do it with one hand, the combination induction button is located at the bottom of the keyboard. . The inconvenience is caused because the positioning of the combination induction button is not ergonomic.

If you stretch your finger on the keyboard to press a key on the keyboard, your thumb is located farther away from your chest than your thumb. In Figure 12, the tip of your finger is closer to the first row and the tip of your thumb is closer to the sixth row.

So it's easy to press the space key on line 6 with your thumb. Because the tip of the thumb is on the 6th side, it's easy to press the space key on the 6th line.

However, in the conventional keyboard, since the combination induction button is located in 5 rows (shift keys) or 6 rows (control keys or alt keys), attempting to operate the combination induction buttons with one hand causes two problems as follows.

First, as a problem when working with the combination induction button on the left side of the keyboard in combination, in order to press the other keys other than the left thumb while pressing the combination induction button with the left thumb, it is possible to turn the wrist to the right at a very excessive angle. If you press the combination induction button with your right thumb and try to press a key other than the thumb of the right hand, the left part of the dial is covered by the back of your right hand when you press the combination induction button with your right thumb. It is virtually impossible to press another key with your left thumb, so you can press the combination induction button with your left thumb or the little finger, or press the other key with your left index finger in a very uncomfortable position. Press another key with your right thumb It is impossible.

Secondly, as a problem when working with the combination induction button on the right side of the combination induction button on the keyboard, the words "right" and "left" in the above mentioned contents can be interchanged.

In order to solve the above-mentioned problem of BBB part,

Place the combination induction button on one or two rows of the keyboard, that is, on the top of the keyboard. Fig. 1 is a method for conveniently performing a combination induction button operation.

To describe in detail the CCC unit

Conventional mode change signals are the same in the operation of the toggle key among the keys of keyboards such as computers, telephones, cellular phones, and PDAs. So, even if he gives a mode change signal, he is not sure whether he has changed to the desired mode. Therefore, there are many times when you need to check the current mode by turning on or off the NUM LOCK, CAPS LOCK and SCROLL LOCK keys corresponding to NUM LOCK, CAPS LOCK and SCROLL LOCK keys. In addition, in response to the Han-Young key, it is often necessary to check the display of the character mode such as "Han" if the current character mode is Korean, and "A" if it is English mode. Even though these mode check devices exist, there are still many cases in which the user's desired mode is different from the actual mode. Because the current mode judgment is not accurate, you think that you have made the current mode judgment correctly, so you can work in the wrong mode without checking through the mode checking device or change the mode to the wrong mode in particular. The most common misoperation is that even if there is a confirmation device, the mode change can not be 100% sure. In order to maximize the task pane at all times, set the taskbar auto hide mode in the Windows desktop taskbar menu, and the taskbar disappears while the program window is maximized. Of course, the text mode is not always known when you open the Internet site while maximizing the task window in the taskbar auto hide mode, and some programs such as Notepad do not display the character mode in the program itself. Although the character mode cannot be confirmed, it is annoying to check the character mode by moving the mouse pointer to the bottom of the monitor screen to make the task bar visible for a while even though the current character mode is uncertain. I think it's most likely in text mode I entered a letter, but unfortunately it wasn't the character mode I wanted, so there are many cases of misoperation. In addition, when entering a user ID or password when registering a member on the Internet site, the text mode is set to Korean mode, and an error message appears. Therefore, there is a lot of trouble to enter after changing to English mode. Because it is in English uppercase mode, an error message appears, so there is a lot of trouble to enter again after changing to English lowercase mode. When signing up at any site where you can also enter uppercase English mode, you were trying to enter your ID or password in lowercase letters. If you can not log in, I seemed embarrassed. Anyway, when working with the keyboard, such as working with documents such as word processors or typing a search word on the Internet, all of the above-mentioned misoperations are occurring a lot. have.

To explain how to solve the above problems

The conventional error described above occurs because the mode change signal is given only by the same signal (mainly single). As a solution to this problem, a method of giving a mode change signal of a different signal for each mode is presented. Only then will you be able to change modes at will. So if you think you are unsure about the current mode, you can give a signal of the mode you want and then work on it, so you don't actually need a mode check device such as a lamp. It is only necessary to check the current mode after a mode change signal has been received without a clear recognition of.

Now let's look at how to give a different signal.

First, instead of the conventional toggle key, a different key is assigned to each mode.

E.g

Instead of the Korean-English toggle key, the Korean mode key and the English mode key can be assigned separately.

Instead of the CAPS LOCK toggle key, the English uppercase mode key and the lowercase mode key can be assigned separately.

Instead of the NUM LOCK toggle key, the numeric mode key and direction key can be assigned separately.

Instead of the SCROLL LOCK toggle key, set the scroll function setting mode key and the scroll function cancel mode key separately.

* Insert insert mode key and edit mode key instead of INSERT toggle key, etc.

Secondly, the method of assigning different pressing methods such as single shot, double click, triple click, long hit, etc. while maintaining the conventional toggle key.

E.g

In the Korean-English toggle key, the single key is assigned to the Hangul mode, and the double-click is assigned to the English mode.

In the CAPS LOCK toggle key, the single stroke can be assigned to English lowercase mode and double click to uppercase English mode.

In NUM LOCK toggle key, single stroke is assigned to numeric mode, double click to directional mode.

In SCROLL LOCK toggle key, single stroke can be set to scroll mode, double click to scroll mode.

In the INSERT toggle key, assign a single hit to insert mode, a double click to modify mode, and so on.

Thirdly, a combination of a toggle key and another key is assigned to each mode while leaving the conventional toggle key intact. For example, here are two methods A and B.

A. Simultaneously press the toggle key while pressing the combination induction button such as shift key, control key, alt key, etc.

E.g

Korean-English Toggle Key Single button is assigned to Hangeul mode, Simultaneous pressing of Shift Key and Korean-English Toggle key is set to English mode. Assign a simultaneous press with the key,

CAPS LOCK Toggle key can be assigned to English lowercase mode. Simultaneous pressing of Shift key and Korean English key can be assigned to English uppercase mode.

NUM LOCK toggle key can be assigned to single mode in numeric mode, and simultaneous pressing of shift key and NUM LOCK toggle key can be assigned to direction mode.

SCROLL LOCK toggle key can be assigned to scroll function setting mode. Simultaneous pressing of shift key and SCROLL LOCK toggle key can be assigned to scroll function cancel mode.

Insert toggle key single insert mode, inserting shift key and insert toggle key simultaneously to modify mode, etc.

B. Simultaneous pressing of the toggle key and any key (or specific key)

ToggleKeys When pressed alone and simultaneously with a toggle key and any other key (or specific key). In this case, the signal by the toggle key should not be determined when the toggle key is on, but by the combination with other keys until it is off.

E.g

Korean-English toggle key single danta is assigned to Hangeul mode and simultaneous press of Hanyoung toggle key and any other key (or specific key) to English mode. Or assign a simultaneous mode of character mode switching toggle key and any other key (or specific key)

CAPS LOCK toggle key can be assigned in English lowercase mode, simultaneous press of CAPS LOCK toggle key and any other key (or specific key) in English uppercase mode.

NUM LOCK Toggle Key Single-Down can be assigned to Numeric Mode. Simultaneous pressing of NUM LOCK Toggle Key and any other key (or specific key) can be assigned to Direction Mode.

SCROLL LOCK toggle key can be assigned to scroll function setting mode, and simultaneous press of SCROLL LOCK toggle key and any other key (or specific key) can be assigned to scroll function cancel mode.

Single key for INSERT toggle key can be inserted into insert mode, simultaneous pressing of INSERT toggle key and any other key (or specific key) will be assigned to modified mode.

Fourth, different voice commands are assigned to different modes through the voice recognition device.

 Fifth, a method of allocating different body motions for each mode through a motion recognition device that senses motions by sensing motions

The sixth way is to display the mode of each toggle key by turning on or off the lamp.

To describe the DDD unit in detail

The method is to increase the button efficiency of the device when the number of buttons is smaller than the work type.The method of pressing the buttons (short, long, double click, triple click, number of presses, etc.), which has already existed so that one-hand operation can be performed While the work is performed by the method of the present invention while maintaining the same, almost no program is added to the existing product without the addition of hardware components such as a button, but the existing button operation method is used as it is, but a separate method is provided. The goal is to increase the versatility of the buttons, reduce the working time and improve convenience by enabling easy and new tasks.

According to the method of the present invention, even if it is a function button or a letter button rather than a combination induction button, it may be a combination induction button in addition to the original function. That is, any button can be combined induction button, so there is no distinction between the combination induction button, function button and letter button.

The following will be described with a specific example.

(The reason why the computer is given as an example is to explain that the present invention is an original method that can be applied to the present computer, that is, it does not claim that the effect is great for the present computer.)

First of all, if you look at a computer, conventionally, even though a computer keyboard has a relatively large number of buttons, the combination with other buttons can be combined only by a method of inducing a separate combination button such as Shift, Control, Alt. This is done to do the following.

First, you can assign a task to a shortcut key to make it easier (for example, to copy the computer screen as it is, a combination of the Alt button and the print screen button, and the print command is a button with a control button and "P" assigned to it). To form a shortcut by a combination).

The term "combination of buttons assigned to a specific task in advance" is used to express more broadly.

Second, a specific operation can be performed only by combining with the next button when the combination induction button is turned on. (For example, when you want to indicate "ㅖ" in Korean writing, the shift button and "ㅖ" are assigned. Only by pressing the button.

The above-mentioned conventional problem is that if a function button or a character button is pressed without any combination with a button dedicated to the combination induction, only a function is always performed or only a character is displayed until a function button or a character button is turned on and off. When you turn on another button, the combination does not create anything new than the original function or writing.

Looking at the application in the present invention,

First, as the "a" process, add the same function as the shift button to the button to which "S" is assigned, and add the same function to the control button as the control button to the button to which "C" is assigned. The description will be made on the assumption that "" is added to the assigned button, in addition to the original function, to add the same function as the Alt button.

If the other letter button is not turned on until the button assigned with the "S" is turned on and is turned off, and other buttons are turned on other than the button of which a different operation is assigned, the letter of the button assigned to the current letter mode is displayed. If another letter button is turned on, it can have the same function as the shift (for example, in Korean mode, "S" is assigned to a button ("b" is assigned to Korean). When the button assigned to the (Hangul is assigned the letter "ㅔ", the letter corresponding to the shift "ㅖ") is turned on, "Y" is written, the button assigned to "S" (Hangul "b" Turn on the button that is assigned the letter "P" before turning it on and then turning it off ("H" is assigned to the lower letter and "ㅖ" to correspond to the shift).) Only "ㅖ" is displayed (if the Combination Induction button is pressed To apply a trailing method to a button, turn on the button to which "P" is assigned (Hangul is assigned the letter "ㅔ" and the letter corresponding to the shift "ㅖ"). Is displayed when you turn on the button to which the button is assigned (Hangul is assigned to "B"), the button assigned to "P" is off, and the button to which "S" is assigned is turned on. "And" b "are displayed.)

And if you apply the above "a" assumption to the "b" process, you can add a new concept combination induction button function to the current letter button without adding a button on the keyboard.

For example, when a button assigned to "S" or "C" or "A" is turned on and then turned off before being turned off, the preset button is turned on to perform a predetermined operation other than displaying letters when combined with the shift button or control button or alt button. If the combination induction button is followed by the combination partner button, the preset button is turned on to perform a predetermined function other than the text display when combined with the shift button, control button, or alt button. ON) and then turn OFF the button assigned "S" or "C" or "A" until it is OFF.

When a button with "S" or "C" or "A" is turned on and then combined with a shift button or a control button or an alt button before being turned off, the preset button is not turned on and another task is assigned. When a button other than the combination button is turned on, the letter of the button assigned to "S", "C" or "A" for the current letter mode is written, and the next button turned on until the button is turned off. It may be possible to determine the operation by the combination with the other buttons.

Also with the "c" process

   If the Home button is turned on after the Esc button is turned on after the Esc button is turned on in addition to the original Esc function, when the task to cancel the operation just specified is specified in advance, the Home button is turned off after the Esc button is turned off. If the Home button is turned on, the operation just canceled is performed.If the Home button is not turned on until the Esc button turns off and the other button is turned on, other buttons are turned on. The Esc button, which is the task of, can decide the action of the button by the combination of other buttons until the button is turned off.

In this way, control buttons that do not perform operations when they are inherently turned on, or combinations with other buttons that are turned on next until the function buttons or text buttons that perform operations when they are turned on except for the shift button or alt button are turned off You can also make other work happen.

Herein, the case of "communication terminal such as a mobile phone, PDA, telephone, etc." will be described. (Depending on the matter, the method of the present invention may be applied outside the scope of the communication terminal.)

Mobile phones usually have thirteen function buttons on the front or side of the device and 12 buttons in three rows and four rows (10 zeros to nine numbers, letters and symbols, and "*" 1 button, 1 button with "#" assigned) There are a total of 25 buttons

In the conventional method, even if the function button is a button of the same position

Depending on what mode you are in, the function may be different (e.g. the right arrow moves directly to the phonebook menu on the initial screen but moves the cursor on the menu screen or while you are writing a letter).

If there is no operation related to the current mode, pressing the button does not work at all (e.g., the Internet connection button has a function to connect to the Internet in the initial state and selects a song in the MP3 mode, but there is no response at all in the compose mode). )

Regardless of the current mode, it can do the same function unconditionally (e.g. exit button will be changed to the initial screen or initial screen regardless of the current mode.

And, as in the computer, the letter button is always displayed as soon as you turn on, but when you turn on another button until some letter button is turned on and off, it does not work except the letter is displayed.

And if you have multiple letters assigned to one button

The first letter is usually just a short press of the button.

The second or third letter is usually pressed several times, such as double-click or triple-click, until the letter is displayed (multiple-clicking method is not determined only by pressing several times, but by pressing other letter buttons or pressing the letter already displayed. Press and hold a button (for example, a direction button) that conveys your intention to make a selection, or wait for 2 seconds for the character to select itself and move the cursor.

In addition, the proposed method is similar to the method of the present invention, after turning on or off a button assigned with "*", or turning on a button assigned with letters in the on state, the second letter assigned to the button is displayed, and "#" "If you turn on or off the assigned button, and you turn on the button that the letters are assigned to, the third letter assigned to the button is displayed, but there are some problems.

First, a combination-induced button can be used to write "*" or "#" to a specific sequence of letters assigned to another button only if no letter is assigned to "*" or "#". In other words, when the "*" button has a letter assigned to it and the second letter assigned to another button acts as a combination induction button, there is no combination induction button that causes the second letter assigned to the "*" button to be written. to be.)

Pressing the button assigned with "7" while pressing the button assigned with "*" and pressing the button assigned with "9" while holding down the button assigned with "#", Button, button assigned with "7", button assigned with "#" and button assigned with "9" The two buttons of each pair are connected in the vertical direction, so that the thumb contacts and interferes with each other. Do.

In particular, hold down the button assigned with "*" with your left thumb and press the button assigned with "7" with your right thumb, and hold down the button assigned with "#" with your right thumb and press the button assigned with "9". Pressing with the thumb of the left hand makes both thumb contact and interference worse.

In addition, the thumb movement range is much less the method according to the present invention

Because in the method according to the present invention, if the combination induction button is assigned to only the buttons in the 1st and 3rd column, the left hand thumb may be in only 1, 2 rows, and the right hand thumb may be in only 2, 3 rows when the letter button is pressed. If you designate as a combination induction button, when you want to press the letter button, the left hand thumb, the right hand thumb should be responsible for both 1,2,3 columns.

And if you specify a combination induction button to only buttons belonging to 1 to 3 by the method of the present invention, since the letter button is only one button on the fourth row, the thumb moves only one to three rows, but * or # combination induction If you specify a button, when you try to press a letter button, the left hand thumb and the right hand thumb move 1,2,3,4 lines all the time.

And as I'll explain later, only combination buttons that use two or more letters can be specified with * or #, so that the first and second letters, incompletely the second and third letters, are written. It is possible to designate as a combination induction button, but completely 20 characters, incompletely up to 30 characters can be entered within two letters, but in the method of the present invention 0 ~ 9 button is also assigned a combination induction button More characters can be entered within 2 strokes as it can be specified.

("Incomplete" above means that the combination of the following multi-tap method or multi-tap method and combination buttons do not resolve the inconvenience when you do not specify the combination induction button to write the first letter.) For example when

1.English: If the alphabet is assigned to the same letter button, it means to confirm or wait 2 seconds or press the right arrow to move the cursor. Even the first letter. Otherwise, the word "aa" will be used, but only "b".

2.Hangul: When the initial letter has a backrest, if the last letter (= back) and the first letter of the back letter are assigned to the same button, wait 2 seconds or press the right arrow to confirm the final letter of the first letter. Move the cursor. Otherwise, the word "each" is used to write the word "each".

In fact, this phenomenon of Hangul is also included in the case of one consecutive alphabet.)

In addition, a 'adjacent key input method' has been developed that combines the up, down, left, and right buttons of the direct button of the button assigned to the letter to be written, but this has the advantage, but the button and the straight button are assigned to the letter to be written. When combined with other letter-button buttons with combination-induced button containing "*" and "#", the two consecutive fingers are more frequent than when only "*" and "#" are designated as combination-induced buttons. It can be said that the interference more often occurs.

In addition, due to pressing the adjacent buttons with both hands, a lot of keyboard problems occur, and when you try to press the letter button, both hands thumb should be in charge of 1,2,3 rows.

The adjacent key input method determines which combination induction button should be selected according to the number of the desired letters assigned from the button to which the letter to be assigned is assigned. It's easy to get confused about using it as an induction button.

For example, if a button has three letters assigned to it,

To use the button assigned to the desired letter, type the letter assigned to the second (= middle)

The button on the left of the button to which the desired letter is assigned becomes a combination induction button for entering the first letter assigned to the button to which the desired letter is assigned.

When the button to the right of the button to which the desired letter is assigned is designated to be a combination induction button that inputs the third letter assigned to the button to which the desired letter is assigned.

When 'G, H, I' is assigned to button 4

If you want to enter 'H', just press button 4.

If you want to input 'I', enter the combination with button 4 by using button 5 on the right as combination induction button.

If you want to input 'G', you have to use the button on the left as a combination induction button, and even if you try to enter it in combination with the button 4, there is no button on the left side. Inconsistency is inevitable (there is a general rule that the left or top button should be a combination-driven button that allows you to enter the first letter).

As a result, buttons 1, 4, and 7 in column 1 have the same problem as above.

In addition, the buttons 3, 6, and 9 in the third column do not have the right button, so they have no choice but to adopt the combination of the lower button as a combination-induced button with a third letter (so the right button or the lower button). A general rule arises that is a combination induction button that causes the third character to be entered.)

After all, when you enter the first letter assigned to a button in row 1 and the third letter assigned to a button in column 3, it is easy to be confused unless you are a master of which buttons to apply as combination induction buttons.

In addition, in the case of Button 1, there is no left button and there is no upper button, so there is no way to write the left letter (= 1st letter), so only 2 letters can be assigned to Button 1.

Therefore, when a button acts as a combination induction button, the combination induction button is selected in consideration of the spatial positional relationship with the combination induction button with the button to which the desired letter is assigned according to the number of letters from the button to which the desired character is assigned. In addition, when the same button acts as a combination induction button, the combination induction function is changed, resulting in inconsistency.

For example, button 2

Because it is on the right side of button 1, it also functions as a combination induction button that causes the third letter assigned to button 1 to be written.

Since it is on the left side of the button 3, it also functions as a combination induction button that allows the first letter assigned to the button 3 to be written. Therefore, it is necessary to check the number of letters to the assigned button to determine the combination induction button. .

And in a slide-type cell phone

If you hold down button 4 with your left thumb and try to press button 1 with your right thumb, your right thumb will be stuck on the upper slide with the liquid crystal, making it difficult to press button 1.

If you hold down button 6 with your right thumb and try to press button 3 with your left thumb, your left thumb is stuck on the upper slide with the liquid crystal, making it difficult to press button 3.

However, the method of the present invention is not selected according to the spatial positional relationship with the button to which the desired letter of the combination induction button is assigned, as if the first button (or second) and the third letter of the conventional button * and button # As firmly determined by the combination induction button to write

Buttons 1 and 3 are combination induction buttons that allow you to write the second (or first) letter.

Buttons 4 and 6 are combination induction buttons that allow you to write a third (or second) letter.

Buttons 7 and 9 are combination induction buttons that allow the fourth (or third) letter to be written.

Buttons * and # are combination induction buttons that allow the fifth (or fourth) letter to be written.

Buttons 2 and 8 are combination induction buttons that allow the sixth (or fifth) letter to be written.

Buttons 5 and 0 can be designated as combination-induced buttons that allow the seventh (or sixth) letter to be written, so that each letter can be increased to less than two strokes while significantly increasing the number of characters (including special characters) assigned to each button. Input, and the function of the combination induction button is consistent.

(Of course, if there are no letters assigned to buttons * and # on the above, and the finger movement range is widened and finger interference occurs, button * and button # can be set as combination induction buttons that perform different functions. You can also specify a combination-inducing button that causes the eighth (or seventh) letter to be written.

Also, since the *, # button functions as a combination induction button may precede or follow the character button, the *, # button is a combination induction button that writes the ninth (or eighth) letter after the * button. You can also specify a combination-induced button that writes the tenth (or ninth) letter following the letter button.)

The above examples are described in more general context in support of the claims.

Although a button is assigned to a combination-inducing button that, when combined with another button, induces a certain kind of action (for example, writing a second letter assigned to another button), that particular kind of action When two or more buttons that induce the same kind of work and three other buttons mentioned above are combined, the same kind of work is possible. Present a method by which one or more non-manufacturer-specific events exist, and

What kind of action does the button induce when the button acts as a combination

It does not change depending on the spatial position relationship with other buttons,

How to always specify the same regardless of spatial position with other buttons

It can also be called

A more specific example is as follows.

In a button similar to that of a normal telephone, the letter button has 0 to 9, *, ＃ and other letters (0-9, *, ＃ as the representative letters).

Until each letter button is turned off and then off,

When another letter button is turned on, the first letter button is used as a combination inducing button to write the first letter assigned to the later letter button, or the first letter button is assigned to the first letter button. The combination induction button, which acts as a combination induction button for writing letters, specifies that any two buttons (first button and second button) are included.

In addition, the first letter button acts as a combination-inducing button that causes the second letter assigned to the letter button to be written later, or the second letter assigned to the letter button first to be written later. The combination induction button, which acts as a combination induction button, specifies that any two buttons (third button and fourth button) except the first button and the second button are included.

Combination that causes the first letter button to write the third letter assigned to the letter button afterwards, or a combination that causes the third letter assigned to the letter button to be turned on later. As a combination induction button acting as an induction button, it is designated to include any two buttons (a fifth button and a sixth button) except the fourth button in the first button.

Also, the first letter button acts as a combination induction button that causes the fourth letter assigned to the letter button to be written later, or the fourth letter assigned to the letter button first to be written later. The combination induction button, which acts as a combination induction button, specifies that any two buttons (seventh button and eighth button) except for the sixth button from the first button are included.

Combination button that causes the first letter button to be written as the fifth letter assigned to the letter button that is later on The combination induction button, which acts as an induction button, specifies that any two buttons (the ninth button and the tenth button) except the eighth button to the first button are included.

A combination button that causes the first letter button to be written as the sixth letter assigned to the later letter button, or a combination that causes the letter button to be written later to the sixth letter assigned to the first letter button The combination induction button, which acts as an induction button, includes a method of arbitrarily designating by a manufacturer or a non-manufacturer such that any two buttons (11th button and 12th button) except for the 10th button are included in the first button. Any method in which more than one event exists that specifies two or more combination-inducing buttons that lead to work can be adopted.

Let's look at a few tables that illustrate the above method as a specific example.

2 and 3 are a combination table of several combinations that can be the first to fourth buttons,

4 and 5 are a combination table of some of the numerous combinations that can be the first to sixth button,

6 and 7 are a combination table of several combinations that can be the first to eighth buttons,

The above button combinations will be understood by those skilled in the art without having to present a table if the contents of the present invention are understood.

(In the table of Figs. 2 to 7

Among the letters 0-9, *, * and other letters, 0-9, *, 대표 are the representative letters, and the representative letters mean the positions in the general four-row and three-column keyboard as shown in FIG. So in a three-row and four-column keyboard where four rows and three columns seem to have rotated 90 degrees, the placement of buttons is defined by the word "row" as "column". Change the word "column" to the word "row." Of course, in this case, the representative letter means the position of 3 rows and 4 columns, not the letter itself.)

In this way, if the method of the present invention is applied, two or more combination-induced buttons that allow arbitrary sequence letters of the buttons to be turned on can also be set to the letter buttons, so that contact and interference between fingers do not occur, and finger movement ranges. It is possible to assign the same number of characters to all the buttons, and to use the "*" button and the "#" button as a combination-inducing button that does not specify a combination of other functions (including the separate functions performed by conventional modes). There is an advantage that can be used as a button. The following example will cover this in detail.

On the other hand, in the case of the existing mobile phone is doing something immediately when the button is on. According to the method of the present invention, when a button is turned on after a button is turned on and then a specific task is designated in advance, the predetermined task may be performed in advance, or the original operation of the button may be performed.

a. If you have a specific example, the menu screen is displayed as soon as the menu button is turned on in the past, but by applying the method of the present invention, the right button is turned on until the menu button is turned off and then immediately turns into a screen for viewing a pending message. Due to the limited environment of limited number of buttons, one function button does not allow you to immediately view low-use hold messages. However, the combination of buttons changes the screen to view hold messages. If the right direction button does not turn on until another button is turned off, and another button is turned on, other than the button of the specified combination, the menu screen is displayed while the next button is turned on with other buttons turned on until the button is turned off. The operation of the button is determined by the combination of.

In this way, the button assigned to the letter can be combined into a button.

b. If the button to which "1" is assigned and the button to which "3" is assigned, in addition to the original function of writing the letter assigned to that button, the button assigned to "1" or the button assigned to "3" When the other letter button is turned on before it is turned off, the second letter of the other letter button is set to a combination-inducing button in advance so that when the button assigned with "1" or the button assigned with "3" is turned off, If the other letter button is turned on before, the second letter of the other letter button is written and the other letter button is not turned on until another button is turned off after the button assigned to "1" or the button assigned to "3" is turned on. When a button other than the specified combination is turned on, the first letter of the button assigned to "1" or the button assigned to "3" is written while the next button is on. The button is off And to decide the operation according to the button by the on the combined state of the other buttons.

c. In addition to the original function of writing a button assigned with "1" to the button, the pending message is displayed when the menu button is on until the button assigned with "1" is turned on and then turned off. When it is specified in advance, the menu button is turned on until the button assigned to "1" is turned on and then turned off, and the message is displayed on the screen, and the menu button is turned off after the button assigned to "1" is turned on. If a button other than the button that is not turned on and the other task is in the specified combination is turned on, the first letter of the button assigned with "1" suitable for the original operation, the current character mode, is written, and the next button is turned on. The combination with other buttons that were on until the button was turned off allows you to determine the action by that button.

d. If the button assigned to "4" and the button assigned to "6" are turned on, the button assigned to "4" or the button assigned to "6" is turned on in addition to the original function of writing the letter assigned to the button. When the other letter button is turned on and the third letter of the other letter button is set in advance, the combination button that induces the third letter of the other letter button is written. When the letter button is turned on, the third letter of the other letter button is written, and the other letter button is not turned on until the button assigned with "4" or the button assigned with "6" is turned on and another job is assigned. If a button other than a button is turned on, the first letter of the button assigned to "4" or the button assigned to "6" is written, and the next button is turned on. Been on until it was off By a combination of circumstances with different button to decide the operation according to the button.

e. If the button assigned with "7" and the button assigned with "9" have the button assigned with "7" or the button assigned with "9" in addition to the original function of writing the letter assigned to the button, When a different letter button is turned on, a button assigned to "7" or "9" when pre-specified as a combination induction button that induces an action when the other letter button is pressed (assuming that the number assigned to the button is written). If the other letter button is turned on before the button assigned to "on" is turned off, the number assigned to the other letter button is written, and the button assigned to "7" or the button assigned to "9" is turned off after being turned on. If no other letter button is on until another button is turned on and another action is turned on, the first letter of the button assigned "7" or "9" assigned to the current letter mode is written. The button which came on the next time And determines the operation according to the button by a combination state of the other buttons to the on-off before the button.

f. If each letter button in letter writing mode has the function to write letters, and if the direction button is turned on after each letter button is turned on and off, when the direction button is turned on by the number assigned to the letter button, If the direction button is turned on after each letter button is turned off, the operation is performed when the direction button is pressed by the number assigned to the letter button, and the direction button is not turned on until each letter button is turned off. If a button other than the button in the specified combination is turned on, the first letter of the letter button corresponding to the original button's current character mode is written and the next button is turned on until the button is turned off. Combination with other buttons is used to determine the action by the button.

g. If in "Writing Mode", the button assigned to "7" will be written to the current cursor if the call button is on until the button assigned to "7" is turned on after the button assigned to "7" is turned on. When a predetermined special character group is changed to the screen that is displayed immediately, if the call button is turned on before the button assigned to "7" is turned on and off, the special character group is changed to the screen. "If the assigned button is not on after the assigned button is turned on and before other buttons are turned on, and other buttons are turned on, other than the button of the specified combination," 7 "is assigned to the current button. When the first letter of a button is written, the next button is used to determine the action of that button by the combination of other buttons that were on before the button was turned off. .

h.If in the letter writing mode, if the button assigned to "7" is in addition to the original function of writing the letter assigned to the button, the call button is on until the button assigned to "7" is turned on and then off. When you specify in advance that a specific special character to be written in the cursor is written, if the call button is turned on before the button assigned with "7" is turned on and off, the specific special character is written, and the button assigned with "7" is If the call button is not turned on until another button is turned on and another button is turned on, other than the button which is made up of the specified combination, the first letter of the button assigned with the letter "7" suitable for the original text mode is written. When a button is turned on, the next button that is turned on will determine the action taken by that button based on its combination with other buttons that were turned on until the button was turned off.

i. It also allows you to save a predefined task as a name or number so that in the writing mode, a button assigned with "7" has a button assigned with "7" in addition to the original function of writing the letter assigned to the button. When the OK button is turned on after turning on, the user is prompted to write a predetermined job name or job number, and when the job name or job number is entered, the button assigned to "7" is assigned. If the OK button is turned on after the ON is turned off, a message to write a predetermined job name or job number appears, and if the job name or job number is entered, the specified job is performed and the button assigned to "7" is turned off. If the OK button is not turned on until another button is turned on, and another button is turned on, other than the button that makes up the specified combination Button assigned "7" for the current letter mode. The first letter is written and the next button is determined by its combination with other buttons that were on until the button was turned off. Let's do it.

On the other hand, in contrast to the example of the existing method and the method applied to the present invention in the mobile phone,

If you want to send "I LOVE YOU FOR EVER red heart symbol" by text message

In the existing mobile phone system as shown in Figure 1 (manufacturer: Samsung Electronics)

After entering the screen for sending text, converting to English capital letters mode,

1.Button 4: Display G (the cursor blinks without confirmation)

2. Button 4: Display H (Only the cursor blinks without confirmation)

3. Button 4: display I (the cursor blinks with no confirmation)

4. Right button or wait 2 seconds: select I

5. Right direction button: space

6. Button 5: Display J (the cursor blinks with no confirmation)

7. Button 5: Display K (the cursor blinks without confirmation)

8.Button 5: Display L (the cursor only blinks in unconfirmed state and is confirmed when the next button is on)

9. Button 6: Display M (Only cursor blinks)

10. Button 6: Display N (the cursor only blinks without confirmation)

11.Button 6: Display O (Only the cursor blinks in unconfirmed state and is confirmed when the next button is on)

12. Button 8: Display T (the cursor blinks without confirmation)

13. Button 8: Display U (the cursor blinks without being confirmed)

14.Button 8: Display V (only the cursor blinks when not confirmed, and is confirmed when the next button is on)

15. Button 3: Display D (Unchecked, only cursor blinks)

16. Button 3: Display E (the cursor blinks with no confirmation)

17. Right button or wait 2 seconds: select E

18. Right arrow button: Space up

19 Button 9: Displays W (only the cursor blinks with no confirmation)

20. Button 9: Display X (the cursor only blinks without confirmation)

21.Button 9: Display Y (only the cursor blinks without confirmation, and is confirmed when the next button is on)

22. Button 6: Display M (Unchecked, only cursor blinks)

23. Button 6: Display N (Only cursor blinks)

24. Button 6: Display O (Only the cursor blinks in unconfirmed state and is confirmed when the next button is on)

25. Button 8: Display T (the cursor blinks with no confirmation)

26. Button 8: Display U (only the cursor blinks without confirmation)

27. Right button or wait 2 seconds: U will be selected.

28. Right arrow button: Space up

29. Button 3: Display D (Cursor blinks without confirmation)

30. Button 3: Display E (the cursor blinks with no confirmation)

31.Button 3: F is displayed (only the cursor blinks without confirmation, and is confirmed when the next button is on)

32. Button 6: Display M (Unchecked, only cursor blinks)

33. Button 6: Display N (the cursor blinks without confirmation)

34. Button 6: Display O (Cursor only blinks in unconfirmed state and is confirmed when next button is on)

35. Button 7: Display P (Only cursor blinks)

36. Button 7: Display R (indeterminate only cursor blinks)

37. Right button or wait 2 seconds: select R

38. Right arrow button: Space up

39. Button 3: Display D (Cursor blinks without confirmation)

40. Button 3: Display E (the cursor only blinks when not confirmed, and is confirmed when the next button is turned on)

41.Button 8: Display T (the cursor only blinks without confirmation)

42.Button 8: Display U (only the cursor blinks without confirmation)

43. Button 8: Display V (only the cursor blinks in unconfirmed state and is confirmed when the next button is on)

44. Button 3: Display D (Unchecked, only cursor blinks)

45. Button 3: E is displayed (only the cursor blinks without confirmation, and is confirmed when the next button is on)

46. Button 7: Display P (Only cursor blinks)

47. Button 7: Display R (only the cursor blinks without confirmation)

48. Right button or wait 2 seconds: select R

49. Right arrow button: Space up

50. Button *: Changes the mode from uppercase letters to special characters

51. Press Down Direction Button 12: Move to the group to which the red heart symbol belongs.

63. (= 51 + 12) Button 5: Red Heart Symbol Selection (If you press Button 5 on the screen that displays the group to which the red heart symbol belongs, the red heart symbol is selected.)

On the other hand, in the case of applying the method of the present invention,

As a precondition

㉠

-After the button assigned "1" or the button assigned "3" is turned on, in addition to the original function of writing the button assigned "1" and the button assigned "3" When other letter buttons are turned on, they are designated as combination induction buttons that induce the second letter of another letter button to be written, and the other letter buttons until the button assigned with "1" or the button assigned with "3" turns on after being turned on. When it is turned on, the second letter of the other letter button is written, and the other letter button is not turned on until the button assigned with "1" or the button assigned with "3" is turned on and then turned off, and the other action is made in a specified combination. If a button other than the button is turned on, the first letter of the button assigned to "1" or "3" assigned to the current text mode, which is the original operation, is written, and the next button is turned off. Another button that came on until before And it makes a decision operation by that button by a combination of conditions.

-After the button assigned "4" or the button assigned "6" is turned on in addition to the original function of writing the button assigned "4" and the button assigned "6" When other letter buttons are turned on, they are designated as a combination induction button that induces the third letter of another letter button to be written, and the other letter buttons until the button assigned to "4" or the button assigned to "6" turns on after turning on. When it is turned on, the third letter of the other character button is written, and the other character button does not turn on until the button assigned to "4" or the button assigned to "6" turns on and turns off, and the other operation forms a specified combination. When a button other than the button is turned on, the first letter of the button assigned to "4" or the button assigned to "6" for the current text mode, which is the original operation, is written, and the next button is turned off. Another button that came on until before And it makes a decision operation by that button by a combination of conditions.

㉡ In the text message sending mode, in addition to the original function of writing a button assigned with “1”, the button assigned with “1” is turned on. By designating a combination induction button that induces the display of a red heart symbol on the cursor, the red heart symbol is displayed on the current cursor when the menu button is turned on until the button assigned with "1" is turned on and off. If the button assigned to "1" is on and off, the menu button is not on and another button is turned on. The combination of other buttons that are on until the button is turned off allows you to determine the action by that button.

㉢ In the text message sending mode, in addition to the original function of writing a button assigned with “1”, the button assigned with “1” is turned on and the cancel button is turned on until the button is turned off before being turned off. Designated as a combination induction button that induces the operation of displaying the special character group to which the red heart symbol belongs to the cursor. If the cancel button is turned on until the button assigned with "1" is turned on and off, the red heart is displayed at the current cursor If the button to which the symbol belongs is displayed, and the button assigned with "1" is on and off, the cancel button is not turned on until another button is turned on and another operation is turned on. When you write the second letter, the button that comes on next determines the action by that button based on its combination with other buttons that were on until the button was turned off.

㉣ In any mode, if the direction button is turned on until the numbered button is turned on and off, press the direction button as many times as the number assigned to the assigned button, and the button assigned to the number is turned on. If a button other than the directional button is not turned on until another button is turned off, and the button is not a button for which another operation is made in the specified combination, the next button written while writing the first letter suitable for the current mode is turned on until the button is turned off. The combination with other buttons allows you to determine the action by that button.

Looking at the process of describing "I LOVE YOU FOR EVER red heart symbol" while considering the preceding conditions mentioned above by the method according to the present invention,

In uppercase alphabetic mode

1.Button 6: Button 4 in Step 2 will be turned on to make the combination-induced button to select the third letter assigned to the next letter button, because the third letter of Button 4 to be turned on in Step 2 is I. It remains on until it is pressed. (The button 4 also has a combination induction button that selects the third letter of the next letter button, like button 6, but keeps button 4 on and button 4 again in step 2). Keep button 6 on)

2. Button 4: I is selected (since Button 6 remains on)

3. Right direction button: Space

4. Button 4: The third letter of Button 5 to be turned on in Step 5 is L,

The third letter of button 6 to turn on in step 6 is O

Since the third letter of button 8 to turn on in step 7 is V,

Turn button 4 on until button 4 in step 5, button 6 in step 6, and button 8 in step 7 turn on. Keep it.

If button 6, which is a combination induction button that allows the third letter assigned to the next button to be selected like button 4, is used as a combination induction button in this case, keep button 6 on and click button 6 in step 6. In addition, if you use button 6 as a combination induction button because it cannot be turned on, "OV" can be used only by a further increasing procedure.

5. Button 5: L is selected (since button 4 is on)

6. Button 6: O is selected (since Button 4 remains on)

7. Button 8: V is selected (because Button 4 is still on)

8. Button 1: When Button 3 of Step 9 is turned on in order to make a combination-inducing button that selects the second letter assigned to the next letter button, because the second letter of Button 3 to be turned on in Step 9 is E. (The button 3 also acts as a combination induction button that selects the second letter of the next letter button, like button 1, but you can also turn on button 3 in step 9 while keeping button 3 on.) So only button 1 stays on)

9. Button 3: E is selected (since Button 1 remains on)

10. Right arrow button: A space is displayed.

11.Button 4: The third letter of button 9 to be turned on in step 12 is Y

Since the third letter of button 6 to be turned on in step 13 is O

Turn button 4 on until the third letter assigned to the next button is selected, and keep button 4 on until button 9 in step 12 and button 6 in step 13.

If button 6, which is a combination induction button that allows the third letter assigned to the next button to be selected like button 4, is used as a combination induction button in this case, keep button 6 on and In addition, if you use button 6 as a combination induction button because it cannot be turned on, "O" can be used only by a further increasing procedure.

12. Button 9: Y is selected (since button 4 remains on)

13. Button 6: O is selected (since Button 4 remains on)

14. Button 1 or Button 3: Since the second letter of button 8 to be turned on in step 15 is U, step 15 is used to make button 1 or button 3 a combination-induced button so that the second letter assigned to the next button to be selected is selected. It stays on until button 8 is on. Since Button 1 and Button 3 have the same function, Button 1 or Button 3 is turned on.

15. Button 8: U is selected.

16. Right direction button: A space is displayed.

17. Button 4: The third letter of Button 3 to be turned on in Step 18 is F

Since the third letter of button 6 to be turned on in step 19 is O

Turn button 4 on until the third letter assigned to the next button is selected, and keep button 4 on until button 3 in step 18 and button 6 in step 19 turn on.

If you use button 6, which is a combination induction button that allows the third letter assigned to the next button to be selected, such as button 4, as the combination induction button in this case, keep button 6 on and click button 6 in step 19. In addition, if you use button 6 as a combination induction button because it cannot be turned on, "O" can be used only by a further increasing procedure.

18. Button 3: F is selected (since Button 4 remains on)

19. Button 6: O is selected (as Button 4 remains on)

20. Button 3: Since the second letter of button 7 to be turned on in step 21 is R, button 7 of step 21 is turned on to turn the button 3 into a combination-induced button so that the second letter assigned to the next button to be selected is selected. Keep button 3 on until

If button 1, which is a combination-inducing button that allows the second letter assigned to the next button to be selected like button 3, is used as the combination-inducing button in this case, keep button 1 on and then press button 7 in step 21. If you press and hold button 1 to turn it on, button 7 will be difficult to see.

21.Button 7: R is selected (as button 3 remains on)

22. Right arrow button: One space

23. Button 1: Since the second letter of button 3 to be turned on in step 24 is E, when button 3 in step 24 is turned on to make the combination-induced button to select button 2 as the second letter assigned to the next letter button Keep button 1 on until button 3 is also a combination induction button that selects the second letter of the next character button, like button 1, but keeps button 3 on in step 24. Also, it can't be turned on, so keep only Button 1 on.)

24. Button 3: E is selected (since Button 1 remains on)

25. Button 4 or Button 6: Since the third letter of button 8 to be turned on in step 26 is V, the button 4 or button 6 is to be combined to induce the combination button so that the third letter assigned to the next button is selected. It remains on until button 8 on 26 is turned on. Button 4 and button 6 have the same function, so button 4 or button 6 is turned on.

26. Button 8: V is selected (as Button 4 or Button 6 remains on)

27. Button 1: When the button 3 of step 28 is turned on to make the combination-inducing button that selects the second letter assigned to the next letter button, because the second letter of button 3 to be turned on in step 28 is E. (The button 3 also functions as a combination induction button that selects the second letter of the next character button like the button 1, but in step 28, the button 3 can be turned on again while keeping the button 3 on.) So only Button 1 stays on)

28. Button 3: E is selected (since Button 1 remains on)

29. Button 3: Since the second letter of button 7 to be turned on in step 30 is R, button 7 of step 30 is turned on to turn the button 3 into a combination induction button so that the second letter assigned to the next button to be selected is selected. Keep button 3 on until

In the case of using button 1, which is a combination-inducing button that allows the second letter assigned to the next button to be selected, such as button 3, as the combination-inducing button in this case, button 1 remains on while button 7 in step 21 If you press and hold button 1 to turn on, button 7 will not be visible.

30. Button 7: R is selected (as button 1 or button 3 remains on)

31. Right button: one space

32. Button 1: Menu button in step 33 to turn Button 1 into a combination induction button that induces the display of a red heart symbol on the current cursor when the Menu button is turned on until the button assigned to Button 1 is turned on and off. It stays on until it is on. Precondition "" is applied

33. Menu button: Red heart symbol is displayed (But button 1 is on.)

Step 33 above can also be done by the following two methods.

First, how to apply the precondition "㉢",

a. Turn on the Cancel button while Button 1 is on: Display the special character group to which the red heart symbol belongs.

b. Button 5: red heart symbol selection (since red heart is displayed on the 5th)

Also look at how the precondition "㉣" is applied,

a. Button *: Changes the mode from English capital letters to special characters.

b. With the button 9 on, turn the down button on: Has the same effect as pressing the down button 9 times

c. With the button 3 on, turn the down button on: The same effect as pressing the down button three times (in the same way as pressing the down button 12 times, it displays a group of special characters with a red heart symbol).

d. Button 5: red heart symbol selection (since red heart is displayed on the 5th)

To summarize the results of the example, in the conventional method of writing only the letters "I LOVE YOU FOR EVER", while pressing the button 48 times in the method of the present invention, the load can be more evenly distributed to the right and left hands while pressing the button 30 times. Also, since the combination with the combination induction button is to press twice with both hands, it is much closer to the one-time short press like a single stroke than the time it takes to press twice with one hand like a double-click (in theory, 100 times with one hand). The time to press or 100 times with both hands and 200 times in total is the same, so the combination with both hands can be expressed as a single stroke or a beat rather than two). You'll be able to complete the task of writing a letter.

In order to enter words containing a series of alphabets assigned to the same button, it is the act of confirming the alphabet written first, which can eliminate the need to move the cursor or wait for 2 seconds by pressing the right arrow. It can be said.

E.g

"DEF" and "AC" in the words "DEFACE"

In the word "TUVALU", "TU" and

In the word "SPRING" and "SPR"

In the words "CABBAGE" and "CABBA"

In the word "BACCY", "BACC" and

In the words "BABOON", "BAB" and "OON"

"NOON" in the word "AFTERNOON"

Is a continuation of the alphabet assigned to the same button, but it is not necessary to confirm the action as in the conventional multi-tap method.

For this reason, it is expected to be about the same as the speed of text input in a mobile phone with many keyboards, such as a computer keyboard, recently developed to improve the text input speed.

In addition, in the touch screen method, when the keyboard is displayed on the screen, the keyboard may cover the majority of the screen. However, the method according to the present invention does not naturally occur because a letter is assigned to the button.

The conventional method of writing a red heart symbol is to press the button 14 times, while the method of the present invention solves the problem of pressing the button only two times, at least in the method of writing a special character, depending on how the combination is specified. The ratio of time savings can be greatly improved.

Combination induction buttons can be used to reduce the range of finger movements by combining letter buttons with '*' or '#' or other function buttons. Also, the right direction button and the cancel button (pronounced unit or phoneme unit) function are used frequently. If you assign a back to the letter button, you can also reduce the range of finger movement.

When compared to the multi-tap method only a few advantages of the present invention are summarized below.

First, you can enter all letters (up to about 100 characters) within 2 strokes.

Secondly, when you enter the letters assigned to the same button consecutively, pressing the right arrow to confirm the first written letter can eliminate the need to move the cursor or wait for 2 seconds. Decreases,

When writing a letter assigned to the same sequence number (even after the second) assigned to another button, the third type may be inputted as one stroke. (E.g., Nos. 5, 6 and 7 of the present invention application example of I LOVE FOR EVER. process)

Fourth, the above-mentioned "communication terminals such as mobile phones, PDAs, telephones, etc." has the advantages described by dedicating more than ten pages.

 If we expand further here,

For example, if a combination of letter buttons is specified in advance, only a combination that performs a specific task may be used to express uppercase and lowercase letters without changing the mode, and change the phoneme assignment of consonant buttons or vowel buttons in Korean or other foreign language buttons. Can easily change the phoneme assignment in a way that allows the user to conveniently write the letters assigned to the buttons.

In addition, if you combine the existing techniques such as long press, double click, triple click, etc., it will be possible to do a very large number of tasks without going through the menu screen.

In addition, if the spelling mode of the present invention is applied to a letter writing mode such as T9, the spelling of some or all of the spellings is determined, and thus the number of candidate words presented by the device is reduced so that the user can quickly enter a word.

For example, in the case of the T9 method, when the user wants to input 'HOOD', when the user presses the '4663' button, 'GHI' is assigned to '4' and 'MNO' is assigned to '6', '3' is assigned to '3', so the device searches the dictionary database for the combination of 'GONE', 'HOME', 'HOOD', 'HOOF', 'HONE', and 'GOOF' If the user suggests that the user moves the cursor to 'HOOD' and selects it, but by applying the method of the present invention after confirming and inputting 'D' of 'HOOD', the device displays only one word of 'HOOD'. You don't need to move it, just select it, because while you use the conventional T9 method, you will find it convenient to confirm a few spells in your experience. The fewer candidates the fewer candidates will be.

For example, a method of confirming spelling by the method of the present invention designates 'button 1' or 'button 3' as a combination induction button for writing the first letter assigned to the next button, and 'button 4' Alternatively, specify 'button 6' as the combination induction button that causes the second letter to be assigned to the next button, and 'button 7' or 'button 9' to write the third letter assigned to the next button. If you do not want to set the spelling to 'D' from above, just press 'Button3' alone. If you want to set the spelling to 'D', hold down the 'Button1' and Press button 3 '.

In addition, the number of candidate words can be reduced by confirming some spellings. As many spelling letters as needed to complete a word (the spelling is not confirmed, that is, a few letters assigned to the pressed button) or the definite letters (spellings A word that the device will display even if you enter only a portion of the word without typing it, or unknown characters (there are no spelling predictions, the computer usually searches for words using "*" or "?"). There won't be a lot of them, and it will be convenient for the user to input only a part.

In the method of T9 etc., every time a letter is input, the most frequently worded word corresponding to the number of letters entered so far is displayed continuously. Therefore, only a part of the word is spelled (candidate or definite or unknown). In addition, if you want to display the candidate word of the desired word, you should give a signal that the user inputs only some spelling. (The reason for the signal that the user inputs only some spelling is that if there is no signal, This is because the device automatically considers that the same number of spellings are entered, and if there is no signal, the device automatically considers that the spelling is less than the spelling number of the desired word. Any word or phrase that includes spelling (= words If it is supposed to automatically display a sequence as a candidate word or candidate phrase, it may be necessary to signal that the number of spellings is the same, to reduce the number of candidates, or to signal both the number of spellings or the same number. The method of giving a signal informing that the number of spellings is small and the same can be arbitrarily determined by the manufacturer or the user.

For example, in the method such as T9, each time a letter is input, the word most frequently corresponding to the number of letters entered so far is displayed continuously.

If the user presses button 4 to write the word 'HOOD', the most frequent "G" in the first letter of "G, H, I" assigned to 4 is displayed first, followed by pressing button 6 first. In the combination of Dunn Button 4 (G, H, I) and Button 6 (M, N, O), the most frequent "IO" is displayed first, followed by Button 6 (G, H, I). ) And the most frequent "HON" in the combination of button 6 (M, N, O) and button 6 (M, N, O) is displayed first, followed by button 4 (G, H, In the combination of I) and button 6 (M, N, O) and button 6 (M, N, O) and button 3 (D, E, F), the most frequent "GONE" is displayed first, but the frequency of use Move the cursor to "HOOD" followed by "HOME" and "HOOF" which are displayed in the following order, in order. (Frequency or displayed letters are randomly expressed.)

The number of spellings required to complete the word above (no spelling, ie, a few letters assigned to the pressed button) or definite letters (spelling confirmed) or unknown (no spelling can be predicted at all). Status, the computer uses "*" or "?" To search for words)

When the user wants to use the word "HOMEPORT", the button 4 (G, H, I), button 6 (M, N, O), button 6 (M, N, O), button 3 in the conventional T9 method. (D, E, F), Button 7 (P, R, S), Button 6 (M, N, O), Button 7 (P, R, S), Button 8 (T, U, V) The candidate word group in which "HOMEPORT" is included as a candidate word is displayed, but according to the present invention, the user can combine combination induction button + button 4 (confirm "H"), button 6 (M, N, O), Combination induction button + button 6 (confirm 'M'), button 3 (D, E, F), combination induction button + button 7 (confirmation 'P') By button 3, the four digits are almost confirmed as "HOME" (of course, it is more certain if each letter of the word "HOME" is confirmed), and the device is then candidates for the user by the "P" which is finally entered. If you display 'HOMEPLATE' and 'HOMEPORT' as words, the user can select the desired 'HOMEPORT'. Expression becomes possible. Of course, it is also possible to give an unknown letter signal while inputting up to 'P' (for example, the button 3 may be marked with '*' or another symbol as another unknown letter).

If you don't confirm 'P' and the user signals that only some spelling of the word has been entered, you can't tell whether Button 7 is 'P', 'R', or 'S' even if 'HOME' is confirmed. A large number of all words containing ',' R ',' S 'are candidates, ie

HOMEPLATE, HOMEPORT, HOMER, HOMERANGE, HOMERIC, HOMERULE, HOMERUN, HOMESCHOOLING, HOMESCREEN, HOMESECRETARY, HOMESELLING, HOMESICK, HOMESIGAL, HOMESITE, HOMESPUN, HOMESTAND, HOMESTAY, HOMESTEAD, HOMESTEADER, HOMESTEADING, HOMESTRETCH In the displayed state, the user must select a desired word.

The examples so far are not necessarily realized as such, but the frequency, the candidate words to be displayed, and the like are arbitrarily set to explain the concept.

In the conventional method such as T9, 'HOME' is not confirmed, so the actual candidate words will be much more. When there are a large number of candidate words, when the desired word is in alphabetical or frequency order, a situation in which a large number of cursor movement buttons must be pressed is opened.

And even though the input method mode such as T9 does not use the input method such as T9, it will not take much time to enter all the spellings of the word. Inputting spelling by combining two buttons uses two hands anyway, so one hand takes only one button, so if you are skilled, you can input almost one button at the same speed as a single stroke, and spelling input method such as T9. Since the act of moving the cursor to the desired word among the displayed candidate words which is almost essential in the present invention is unnecessary and only needs to be selected as it is, the time taken to input the desired word may be faster as compared with the conventional T9.

It can also be programmed to omit the body of action to be selected once all spelling has been confirmed and entered.

For example, in the T9 and the like, in which the word "HOMEPORT" is input while comprehensively explaining the application of the method of the present invention in parallel with the conventional method, each word may be entered in a letter input mode such as T9. Spelling can be input by combining various methods such as the existing method, the method according to the present invention, or the method similar to the present invention without changing the mode. Methods characterized by this also claim to be novel in the present invention. (In conventional T9, if the word you want to enter does not exist in the DB, it is inconvenient to switch to multi-tap mode and completely enter the desired word and then return to T9 mode. In particular, URL, proper noun, e-mail address, and various This is the case when entering human names, foreign words, technical words, etc.)

The term "multiple ways" for entering letters so that the mentioned candidate words are displayed is a combination of the methods 1 and 2 below.

1. As a type of letter, "A" (definite letter) or "B" (candidate letter) or "C" (unknown letter)

2. The number of spells to be entered, "la" (the total number of spells) or "e" (the number of spellings) necessary to form a complete word.

The number of possible combinations of 1 and 2 is ga + la, ga + ma, me + la, me + ma, da + la, da + ma, ga + na + la, ga + na + ma, me + da + Da, Da + Da, Da + Da + Da, Da + Da + Da, Da + Da + Da + Da, Da + Da + Da + Da Here are just a few examples of searching and searching.

Here are just a few examples of how to write a text message. (Let's also enter HOMEPORT. For example, English alphabets are defined letters, numbers are candidate letters, and '*' is unknown letters.)

First, a method of inputting a combination of "I" and "D", which is a conventional T9 method.

(Enter "46637678" so candidates can be displayed.

Button 4 (G, H, I), Button 6 (M, N, O), Button 6 (M, N, O), Button 3 (D, E, F), Button 7 (P, R, S) Button 6 (M, N, O), Button 7 (P, R, S), Button 8 (T, U, V). This detailed description will be omitted below.)

Second, enter the combination of "me" and "e".

(Enter "46637" to display the candidate words, and signal that the spelling count is insufficient. As mentioned above, the case and method of giving the spelling number can be determined by the manufacturer or user. In a DB with the same few records, there are not many candidates with the spelling entered, so it is better to give a signal when the spelling number is the same, but only when the spelling number is the same.

Third, enter a combination of "a" and "e".

(Enter and type "HOMEP" for candidate words to be displayed and signal a lack of spelling)

Fourth, to enter a combination of "a" and "la"

(All spellings are entered with "HOMEPORT", so there is only one candidate word. You do not need to select it.)

Fifth, enter the combination of "a" and "me" and "da" and "la".

(Enter the desired word and spelling number with "H6 * EP67T" so that candidate words can be displayed.)

Sixth, to enter a combination of "a", "me", "da" and "e"

(Enter "H6 * EP6" to display the candidate words and signal that the spelling count is insufficient or "* EP6" to indicate the spelling count is insufficient.)

Here, one more term in the definition of terminology is that "one unknown character (exampled below with"% ") can also specify that two or more consecutive letters can be substituted." We also propose a method of inputting a search word by dividing the part with a separator.

Why this method is useful

First, in English, when you can't know not only spelling by sound but also the number of spelling, you can enter the part where you know exactly spelling as a search word.

Second, in the case of English, the front part (= mainly root) is the same and tends to be differentiated into words such as parts of speech due to the spelling change at the end. In this case, as an example of the first method, spelling may be input by combining the "a" to the "e" method by dividing into the last part and the last part of the word. Since one unknown letter may replace two or more consecutive letters, the unknown letter is used as a separator that separates the last part from the last part of the desired word. In other words, before inputting the last part, a signal such as a special symbol (eg,%) indicating that the last part is inputted later may be inputted.

Words containing 'SENS' include SENSE, SENSEFUL, SENSELESS, SENSELESSLY, SENSIBILITY, SENSIBLY, SENSITIVE, SENSITIVITY, SENSITIZE, SENSOR, SENSORIAL, SENSORY, SENSUAL, SENSSUALITY, SENSUALLY, SENSUOUS, SENSSUAL, there is

Observations show that candidate words can also be reduced by typing the root 'SENS' and the end of a word. This is because words such as English have many variations due to spelling at the end.

Let's look at a few examples of how to enter a search term when "SENSUALIST" is the word you want to enter.

As an example of a search term by the first method

1. S% N% U% LIST

2.SE% SU% * 7T

3. Enter a search term such as NS% AL to generate candidate words that contain "SENSUALIST".

As an example of a search term by the second method

1. SENS% IST

2. 7367% 478

3.S3 * 7% * 7T

4.S3 * 7% 7T

5. S3 * 7% T

6.S3 * 7% 8

7. You can also enter 3 * 7% 8, etc. to generate candidate words that contain "SENSUALIST".

In addition, as described above, in applying the method of inputting spelling by combining the "e" to "e" above, a significantly smaller number of records than a language dictionary, such as a phone book of a mobile phone (here, a record is defined as two or more words). It is very easy to understand if you think that it is made up of phrases). The low number of records is also useful because the number of candidate records is low when retrieving multi-word records. This method is useful when there are many letter buttons and few records, but only a few records. Therefore, this method is also useful for devices with many buttons, such as a computer keyboard, and can be applied to improvement methods such as T9. Here's how to apply it.

1.How to input letters when there is only one spelling per letter (or cursor) like English

(Here are a few examples of `` VOLFGANG AMADEUS VON MOZART '', where the English alphabet is a definite letter, the number is a candidate letter, and the `` * '' is an unknown letter, for example). A slash (/) is used to indicate a space that is actually a space.The separator between characters is a comma (,) or a '#'. Can be replaced by another symbol)

First, enter the combination of "I" and "La"

For example, one or more search words are selected from among the words of the record to be selected so that the candidate records can be displayed. For the selected words, the candidate letters are input according to the complete spelling number. To enter "661278" or "2623387 866" to search for the word AMADEUS VON.)

Secondly, enter the combination of "me" and "do"

E.g

Enter only the first letter of each word (type "8 2 8 6" to signal that there are some words that lack spelling numbers)

Or enter more than the first letter of each word. (Enter "86 26 8 661" to signal that you have a word that lacks spelling.

Or enter only a part of the word you want. Here, enter "387" to search for EUS of AMADEUS and signal that there is a word with insufficient spelling.)

Third, enter the combination of "a" and "e"

E.g

Enter only the first letter of each word (enter "V A V M" and signal that there is a word with insufficient spelling)

Or enter more than the first letter of each word. (Enter "VO AM V MOZ" to signal that there are insufficient words for spelling.)

Or, select one or more words for search among the words of the record to be selected so that the candidate records can be displayed, and enter a definite letter with insufficient spelling for the selected word ("MOZ" to search only with the word MOZART). Only after input signals a word that lacks a spelling count.

Fourth, to enter a combination of "a" and "la"

For example, one or more words for search are selected from among the words of the record to be selected so that the candidate records can be displayed. Enter "MOZART" to search or "AMADEUS VON" to search for the word "AMADEUS VON".)

* Fifth, enter the combination of "A", "I", "D" and "D"

For example, one or more words for search are selected from among words of a record to be finally selected so that the candidate records can be displayed, and the definite letters, candidate letters, or unknown letters are input according to the complete spelling number. (Enter "M6 * 2 * T" to search for the word MOZART or "A6 * 3E8S V * 6" to search for the word "AMADEUS VON".)

Sixth, to enter a combination of "a", "me", "da" and "e"

For example, in the selected words, one or more search words are selected from among the words of the record to be finally selected so that the candidate records can be displayed. (Enter "M6 * 2" to search for the word MOZART or "A6 * 3E V *" to search for the word "AMADEUS VON" and then signal that there are words with insufficient spelling numbers, or " Enter "* 8S V *" to search for the word EUS VON "and signal that there are words with insufficient spelling)

2. How to input letters when there is a unique sound for each letter, such as Korean, Chinese, or Japanese, and the sound is expressed by a combination of one or more spellings. This is possible when the input is included in the contents of a field of a record, and its own character is automatically interpreted as a pinyin notation similar to the English alphabet. It means that it is possible to assume that the data in the DB is searched by 'JUNG, HWA, MIN, GUK DE, TONG, LIONG' automatically.

(The only difference between English and English is that you input one letter, but when you enter multiple spellings, you can display the letter unit as a separator. As a delimiter between letters that can be less than the number of spelling of the comma (in Korean, you can not enter the delimiter between letters, because you can see that the letters have changed because you just entered the initial consonant) In the above two cases, the delimiter between letters is adopted, but the delimiter between the letters in the above two cases can be any symbol (including no separator or a space). However, if the separator between letters is one space, the separator between words can be two spaces. And other symbols.)

As an example of looking for 'Kim Joon-Hyung Hansa 2 Teacher' and '中華民國 大 統領', we will use only the third and sixth examples of English above. (In this case, Hangul and alphabet are definite letters, numbers are candidate letters, and '*' is unknown letters. For example, a number is actually represented by a slash (/) before or after the number. Spaces are actually represented by spaces. Separators between letters are represented by commas (,) or '#'. In application, unknown characters or actual numbers or spaces or separators between letters may be replaced by other symbols.)

Third, enter the combination of "a" and "e"

E.g

Enter only the first letter of each word

(Enter "ㄱ ㅎ ㅅ" to signal that there is a word that lacks spelling. Enter "J D" to signal that there is a word that lacks spelling.)

Or enter the first letter or more of each word.

("ㄱ ㅎㅎㅎ ㅅㅅ" or "ㄱ, ㅈ, ㅎ ㅎ, ㅈ ㅅ, ㅅ" and inputs a signal indicating that there are insufficient spelling words.

After inputting "JHMG DTL", "J, H, M, G D, T, L" or "J, H D, T, L", it signals that the word has insufficient spelling number.)

If it's the opposite

The delimiter between letters after consecutive spellings

If there is a comma, it is a signal that a sequence of spellings is sequentially entered from an arbitrary position of an arbitrary character unit due to pinyinization of a unique character of a desired word.

Without a comma, logic can be used (in the same way as Korean) to signal that only the first alphabet of the alphabet corresponding to each unique character is input due to pinyinization of the unique character of the desired word.

E.g

"JHMG," or "JH," has a comma at the end, so each alphabet can be regarded as a sequence of alphabets of Pinyin Chinese characters and searched for "JUNG, HWA, MIN, GUK DE, TONG, LIONG" can not do. You can search by using "JUN," or "JUN, H" or "JUN, H, MIN" by putting a comma after the alphabet after the character at any position.

Since "JHMG" or "JH" does not have a comma at the end, each alphabet is regarded as a consecutive alphabet from any position of any character unit of the pinyin of Chinese characters, and is regarded as' JUNG, HWA, MIN, GUK DE, TONG, LIONG. Search is possible, and so on)

Or, select one or more words for searching among the words of the record to be selected so that the candidate records can be displayed and input the definite letters with insufficient spelling for the selected words.

(In order to search only with the word "Kim Joon-Hyeong", after inputting only "ㄱㅈ" or "ㄱㅈㅎ", it signals that there is a word that lacks the spelling count.

To search only with the words "DE, TONG, LIONG", only the words "D, T" or "D, T, L" or "DTL" will signal that the word has insufficient spelling count)

Or if you want to search for "June" but you want to enter only part of the word "주" or "ㄱ주 ㅎ" or "ㄱ, 주, ㅎ", give a signal that there is a word that lacks spelling numbers, or "ㄱ주" or "ㄱ, After you enter "week" or "ㄱ주 ㅎ" or "ㄱ, 주, ㅎ", signal that you have a word that lacks spelling.

Or, if you want to search for "TONG" but you want to enter only a part of "TO", then you type "D, TO, L" to signal that there are words with insufficient spelling.

If "June" should not be used to search for "June", use the "###" or "B, ##" After inputting # ㅎ "or" ㄱ, 주 # ㅎ "or" ㄱ, ㅈ * # ㅎ ", signal that there is a word that lacks spelling because of" ㄱ "or" ㅎ ". In this case, you cannot search for "Jun" and as a result, you cannot search for "Kim Joon-Hyung Hanja 2 Teacher."

If "TO" should not be searched for "TONG", enter "D, TO # L" after the "D", using "#" as a delimiter to indicate the same spelling number as "TO". Or a word that lacks spelling because of "L" signals. In this case, you cannot search for "TONG", and as a result, you cannot search for "JUNG, HWA, MINGUK DE, TONG, LIONG".

Sixth, to enter a combination of "a", "me", "da" and "e"

For example, or for selecting words, select one or more words for search among the words of the record that you want to make final selection so that the candidate records can be displayed. do. (You can enter "ㅅ * 5" or "선, * ㅐ, 5" or "선, ㅅ * ㅇ # 5" to search for the word "teacher," and signal that you have a word that lacks spelling.)

Or "* 8 * * 2 /" ('/' indicates that '2' is actually a number rather than a candidate character) to search for the word "Kim Joon-hyung Hanja2" Gives.)

"D, *, 5" or "DE, T * N, 5" or "DE, TO * 4 # 5" or "* E, TO * G #, L to search by the words" DE, TONG, LIONG " * 6 "will be used to signal that there are words with insufficient spelling.)

3. From the beginning, one or more delimiters can be applied in the middle of a word to be used when entering and searching. It can be applied to a language similar to English, but the advantage of using is small and if there is a unique sound for each unique letter such as Chinese, when the sound is input as Pinyin similar to the English alphabet, the user's own character unit or user How to enter a search term based on the format you entered when you searched after applying separators where you want

For example, I don't know how to read '中華民國 大 統領' in Chinese, but I'm reading as 'President of China'. Let's say you entered 'JUNG, HWA, MINGUK DE, TONG, LIONG' using the comma separator. The Republic of China in the Republic of China was entered without a separator.

 There are also several ways to enter a search word to display 'JUNG, HWA, MINGUK DE, TONG, LIONG' as a candidate for selection, but only the third and sixth examples of English above are examples below. For example, the alphabet is a definite letter, the number is a candidate letter, and '*' is an unknown letter. For example, the number is actually preceded by a slash (/) before or after the number. The delimiter between letters is expressed as a comma (,) or '#'. In practice, unknown characters or actual numbers or spaces or delimiters between letters may be substituted with other symbols.)

Third, enter the combination of "a" and "e"

E.g

Enter only the first letter of each word (enter "J D" to signal that there are words with insufficient spelling)

Or, enter more than the first letter of each word. (Enter "J, H, M D, T, L" and signal that there is a word with insufficient spelling.)

Or, select one or more words for searching among the words of the record to be selected so that the candidate records can be displayed and input the definite letters with insufficient spelling for the selected words.

(To search only with the words "JUNG, HWA, MINGUK"

Only "J, H" or "J, H, M" signals that there is a word with insufficient spelling count after input.

Or if you want to search for "MINGUK" and only want to enter a part of it as "MING", type "J, H, MING" to signal that there are words with insufficient spelling or "H, MING" or "HW, MING". Later it signals a word that lacks spelling.

If you should not search for "MINGUK" because of "MING", use "J, H, MING #" or "JUN, H," After typing MING # ", a word that lacks spelling signals.

Even in this case, the search for "MINGUK" fails, and as a result, the search for "JUNG, HWA, MINGUK DE, TONG, LIONG" is not possible.

Sixth, to enter a combination of "a", "me", "da" and "e"

For example, in the selected words, one or more search words are selected from among the words of the record to be finally selected so that the candidate records can be displayed.

(Such as "J, *, 6" or "JUN, H * A, 6" or "JUNG, ** A # 6" or "JUNG, A, 6" to search by the words "JUNG, HWA, MINGUK" And then signals that you have a word that lacks spelling.)

In addition, a combination induction button (which may designate two or more combination induction buttons having the same function) may be used to maximize the number of signals that can be generated by a single stroke or in combination with another button.

Here, the signal is not only a function to write a letter, but also may be another function. At this time, the two buttons to be pressed are vertically connected, so the interference between the fingers will not be considered. The following description will only refer to a case in which only one combination induction button comes on ahead of the character button as in the general case when the character button is combined with the combination induction button. That alone can generate a sufficient number of signals. When applied to a product, two or more combination-inducing buttons (or combination-inducing button-made buttons) that have different functions are used before or after the letter button, or one combination-inducing button is later than the letter button. It may also be possible to generate other signals when turned on (especially when combining buttons with unassigned buttons in the description below).

The biggest reason to maximize is the inconvenience of having to press the same button several times to select a specific character when more than 26 letters have to be assigned to a button, depending on the country, and more than 26 letters need to be assigned to a button. Even if the input method is improved, it is to solve the inconvenience.

This is because Russian has 33 characters, 30 Bulgarian, 46 Hindi, 50 Japanese, 44 Myanmar, 46 Hindi, 76 Thai (actually only 62). For example, to understand the table that follows, let's say you have a letter assigned to only nine buttons, like the English alphabet, and no letters assigned to '*, 0, #'.

At this time, danta writes the first letter assigned to each button and '*' is used as a combination induction button to write the second letter assigned to each button (of course, it can be expressed by double-clicking). '0' is the combination of the third letter assigned to each button (also triple-clicked. The words in parentheses are omitted below), and '#' is the combination that causes the fourth letter to be assigned to each button. By using the induction button, buttons 1 to 9 are also intended to be combined induction buttons, and since the letters are already assigned, two combination induction buttons function to write the same function, that is, the letters in a specific order assigned to the button. Since it is necessary to designate the above, 9 to 1-9 is divided by 2 and becomes 4.5, and when cut, it is 4. In this way, eight of the buttons 1 to 9 can be assigned two combination-inducing buttons to write the fifth, sixth, seventh, and eighth letters assigned to each button, leaving one extra. Then, eight letters can be assigned to one button. Since there are nine such buttons, a total of 72 letters can be assigned to buttons of 1 to 9 so that a single stroke or a combination of two buttons can be used. Previously, if you wanted to write the eighth letter, you had to press the same button eight times.

Let's take a more mathematical example.

'A' is called 'the number of assigned buttons' (the previous example is A = 9)

'B' is called 'the number of unassigned buttons' (the previous example is B = 3)

'D' is called 'the number of letters that can be assigned to one button'

D = B + cutting (A / 2) +1 (the previous example is D = 3 + cutting (9/2) + 1 = 8)

If you say "E" as "the total number of characters that can be assigned"

E = A * D (the previous example is E = 9 * 8 = 72)

The numbers of cases A, B, D, and E are shown below.

(When you use a button that does not have a letter assigned to it as a combination induction button, you can distinguish when the letter you want to use comes on before the assigned button and when it comes on later.

'D = 2B + cutting (A / 2) +1' will result in a larger number of 'D' or 'E'.)

In extreme cases, the 26 English alphabets may be ranked. Because 11 letters are assigned to each of the three buttons, the first letter assigned to the button is written as a single stroke, and the letter is not assigned to the combination induction button that causes the second to tenth letters to be written. This is because two buttons can be specified among the three buttons in which letters are assigned as a combination induction button for specifying nine buttons and writing the eleventh letter.

This is also an advantage over the T9. This is because, in the method of T9 or the like, as the number of spellings assigned to one button increases, the number of candidate words increases exponentially, making it impossible to use. Of course, the same is true for signals in other languages.

Hangul can be regarded as 33 letters, and the ranking 2 method can be applied extremely. Hangul 33 letters means 14 basic consonants (However, the number of Hangul is different depending on the classification type, such as 40 after adding additional number of extended vowels.)

The 62 letters of Thai can be expressed by applying the method of ranks 6 to 11 in the table above, because the 'E' value of ranks 6 to 11 is 62 or more. It means that 9 letters can be assigned to 7 buttons, and 63 letters can be used in combination with a single stroke or other combination-inducing buttons.The ranking 11 method is applied by assigning 7 letters to 12 buttons. It is possible to use a single letter in combination with a single stroke or other combination induction button, and of course, you can assign 5 or 6 letters to 12 buttons to use 62 letters in combination with a single stroke or other combination induction button.

Also, in case of English, you can apply the method from ranks 6 to 11 even if you want to assign 3 uppercase letters, 3 lowercase letters, and 1 number to one button without changing the mode. In total, the total number is 10 and 62 is the same as Thai. However, the recommended method is rank eight. This is because the general English keyboard can be realized by rank 8.

In conclusion, in the mobile phone, the method of the present invention is applied to the method of maximizing convenience and efficiency in the form of the use of letters, vowel consonants, and equal use of the right and left hands. You will be able to configure the button.

3.digital camera

Digital cameras usually have no function buttons, only function buttons.

Even if a function button is a button of the same position

Depending on the current mode, the function may be different (e.g. the right arrow button is a toggle button to indicate whether the flash is fired in the mode of taking a picture, and the mode is to change the next picture in the mode of viewing the picture on the LCD screen). )

If there is no operation related to the current mode, pressing the button does not work at all (e.g. the down button moves the cursor downward in the menu mode but does not respond at all in the photo view mode).

It does the same thing regardless of the current mode (e.g. the POWER button is a toggle button that turns the camera on or off regardless of the current mode).

The problem is that you can't specify a new task with a button and a combination of buttons, because the task is done immediately when each button is turned on.

If a function button is in addition to the original operation in addition to the original operation, and other buttons are turned on before turning off after the function button is turned on, as in the case of the present invention application example of the computer (Esc button and Home button), it is previously designated to perform another operation by the combination. If it is turned on, the other task is in the specified combination until the function button turns on and turns off. If the button is turned on, another operation is performed in that combination. If it does not turn on, you can try to perform the original function. By doing so, a button that used to function in one mode can do several things with a combination of buttons.

Finally, let's talk about some real-world examples of assigning letters to buttons in Korean and English.

First, let's look at the frequency ranking of the Korean and English alphabets.

(It's a little different depending on the data you're statistics about, but it's almost the same.)

The reason for recognizing the frequency ranking is to assign the higher frequency of use when assigning the letters to the prior ranking among the several letters to be assigned to each button, so that they can be effectively entered even in the multi-tap method. This is because the letters are input in a single stroke instead of a combination method and the second letters can be input in a button combination, so that the effects of the present invention can be further increased by using a single input.

1.Use frequency of Hangul (from using a lot to using a little)

Consonants (19): o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o

Short vowels (10): ㅣ, ㅏ, ㅓ, ㅡ, ㅗ, TT, ㅕ, ㅛ, ㅑ, ㅠ (But the order of vowels may not be important, because there are only 10 anyway, 10 buttons from 0 to 9 You just need to assign them one by one.)

Double vowels (11): ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅘ, ㅝ, ㅢ, ㅙ, ㅞ (similar to short vowels, etc. can be assigned in pairs, so frequency order is not important. I didn't list it.)

2.Order frequency of use of English alphabet (from using a lot to order using a little)

26: There are several statistics.

E, T, A, O, S, N, I, R, H, D, L, C, M, U, P, F, G, W, Y, B, V, K, X, J, Q, Z (applies to the example below)

E, T, A, O, I, N, S, R, H, L, D, U, F, M, W, Y, G, P, C, B, V, K, X, J, Q, Z

E, T, O, A, N, I, R, S, H, D, L, U, C, M, P, F, Y, W, G, B, V, K, J, X, Z, Q

Next, let's think about Hangul assignment.

Even if several letters are assigned to one button by the method of the present invention, it is possible to input in one beat with both hands by the combination of two buttons.

40 consonants (19 consonants, 10 short vowels, 11 double vowels) can be input to one beat (= 2 strokes by combination) even if four buttons are assigned to each button. In the vowel input method, the typos of the most severe vowel vowels (eg, try to input 'ㅞ' and then type 'ㅜ ㅣ ㅣ') will rarely occur.

You can also assign two more special characters to each button.

Now let's look at an example of how to enter 6 characters (4 Korean characters, 2 special characters) assigned to each button. (If the sum of the number of characters and special characters is 6 in any language, the same applies as follows.)

It is possible to input the first letter by a single stroke (in the input mode such as T9, when entering the letter after entering the letter, the preceding letter is entered before the assigned button, that is, the first letter of a button is entered. Set to Button 1 and Button 3 with the Induction Button.)

Set the buttons 4 and 6 as the preceding combination induction button that allows the second character to be entered.

Set the buttons 7 and 9 as the preceding combination induction button that allows the third letter to be entered.

Set the buttons * and button # as the preceding combination induction button that allows the fourth letter to be entered (unless the buttons * and button # have a letter assigned to them, if you do not mind finger interference or widening range of finger movement, move the buttons * and button # You can also set the combination induction button for other functions),

Preset combination induction button for inputting the first special character, which is the fifth character, is set as button 2 and button 8 (or special characters have low utilization while writing characters, so you can leave one combination induction button if you do not consider finger interference. The trailing combination induction button can also be set as a button *, which is possible when no button is assigned a letter.)

Set the buttons 5 and 0 as the preceding combination induction button to input the second special character, which is the sixth character (or the special character has low utilization while writing the character, so if you do not consider finger interference, you can leave only one combination induction button. It is possible to set the button # as a trailing combination induction button, which is possible when no letter is assigned to the button #).

And finally, a trailing combination induction button that allows you to enter a number assigned to a button. You can also set it as buttons * and button #. This is possible when no buttons or letters are assigned to buttons * and button #.

Of course from above

  Entering the first to sixth characters is based on the multi-tap method, that is, the number of consecutive presses.

  It is obvious that conventional methods such as pressing and holding numbers can also be performed in parallel.

  The button * and button # danta will perform other functions (prior functions: eg-changing the text mode, adding Hangul stroke order, etc.).

19 batches of Hangul consonants are divided into 2 groups in order of frequency, so that if you match the consonant memorization order and match the paired consonants with the same pair of consonants, it will be easier for users to find and memorize.

Hangul short vowels were arranged in consideration of the order of recitation and space constraints.

The principle of pairing Korean short vowels and double vowels is to make the pairs with 'ㅣ' added to the short vowels, but the pairs are not matched as soon as the user feels easy to find and easy to memorize.

(ㅏ, ㅐ), (ㅑ, ㅒ), (ㅓ, ㅔ), (ㅕ, ㅖ), (ㅗ, ㅚ), (TT, ㅟ), (ㅡ, ㅢ) are short for vowels and short vowels. I tried to pair it with the added shape,

(ㅛ, ㅘ), (ㅠ, ㅝ) are paired in a similar shape,

(ㅙ, ㅞ) tried to pair with the same pronunciation.

But look

Adding 'ㅣ' to 'ㅘ' becomes 'ㅙ',

If you add 'ㅣ' to 'ㅝ', it becomes 'ㅞ'.

'ㅛ, ㅠ' both have no letters formed by adding 'ㅣ',

(ㅘ, ㅙ), (ㅝ, ㅞ), (ㅛ, ㅠ) seems to be a good pairing.

Of the above efforts ㅡ, ㅣ, ㅢ, ㅙ, ㅞ

In the example below, we assign 3 of 21 vowels (2 for each other) to Button 2, which has only one consonant assigned to it (in the example below, only 'b' is assigned to '2'). I tried to deviate from the principle. Because (ㅡ, ㅢ) is paired in the form of adding 'ㅣ' to short vowels and short vowels, but it becomes a shape in the order of recitation to (ㅡ, ㅣ).

In addition, since the double vowels are assigned to the buttons, the double vowels can be input in one beat due to the combination button, but the input is also possible in parallel with the continuous single vowel input.

E.g

'ㅐ' can be formed by entering 'ㅣ' immediately after entering 'ㅏ',

'ㅔ' can be formed by entering 'ㅣ' immediately after entering 'ㅓ',

'ㅒ' can be formed by entering 'ㅣ' immediately after entering 'ㅑ',

  Or by entering 'ㅣ' immediately after entering 'ㅣ',

'ㅖ' can be formed by entering 'ㅣ' immediately after entering 'ㅕ',

  Or by entering 'ㅣ' immediately after entering 'ㅣ',

'ㅚ' can be formed by entering 'ㅣ' immediately after entering 'ㅗ',

'ㅟ' can be formed by entering 'ㅣ' immediately after entering 'TT',

'ㅢ' can be formed by entering 'ㅣ' immediately after entering 'ㅡ',

  Or just by entering 'ㅡ' immediately after entering 'ㅣ',

'ㅘ' can be formed by typing 'ㅏ' immediately after entering 'ㅗ',

  Or by typing 'ㅗ' immediately after entering 'ㅏ',

'ㅝ' can be formed by typing 'ㅓ' immediately after entering 'TT',

  Or just after entering 'ㅜ' to form 'TT',

'ㅙ' can be formed by typing 'ㅐ' immediately after entering 'ㅗ',

  Or by typing 'ㅗ' immediately after entering 'ㅐ',

  Or by typing 'ㅏ' and 'ㅣ' immediately after entering 'ㅗ',

  Or by entering 'ㅣ' and 'ㅏ' immediately after entering 'ㅗ',

  Or by typing 'ㅗ' and 'ㅣ' immediately after entering 'ㅏ',

  Or by entering 'ㅣ' and 'ㅗ' immediately after entering 'ㅏ',

  Or by entering 'ㅗ' and '를' immediately after entering 'ㅣ',

  Or by entering 'ㅏ' and '를' immediately after entering 'ㅣ',

  Or by typing 'ㅣ' immediately after entering 'ㅘ',

  Alternatively, it can be formed by typing '입력' immediately after entering 'ㅣ'.

'ㅞ' can be formed by typing 'ㅔ' immediately after entering 'TT',

  Or just after entering 'ㅜ' to form 'TT',

  Or by typing 'ㅜ' and 'ㅣ' immediately after entering 'TT',

  Or by entering 'ㅣ' and 'ㅓ' immediately after entering 'TT',

  Or just after entering 'ㅓ' and entering 'TT' and 'ㅣ',

  Or just after entering 'ㅓ' by typing 'ㅣ' and 'TT',

  Or just after entering 'ㅣ' and entering 'ㅓ' and 'TT',

  Or just after entering 'ㅣ' and entering 'TT' and 'ㅓ',

  Or by typing 'ㅣ' immediately after entering 'ㅝ',

  Alternatively, it can be formed by typing '입력' immediately after entering 'ㅣ'.

In addition

'ㅑ' can be formed by entering 'ㅏ' immediately after entering 'ㅣ'

'ㅕ' can be formed by entering 'ㅓ' immediately after entering 'ㅣ'

'ㅛ' can be formed by entering 'ㅗ' immediately after entering 'ㅣ',

'ㅠ' can be formed by entering 'TT' immediately after entering 'ㅣ'.

So, if you enter a vowel less than the vowel component that you want to enter, you can add one or more vowels without clearing the vowel and achieve your goal. For example, if you input 'ㅖ' incorrectly when you try to enter 'ㅖ', you can write 'ㅖ' if you enter only 'ㅣ' without deleting 'ㅕ'.

Consonant assignments, single vowel assignments, single vowels and double vowel combinations, consonants and single vowels, and combinations increase exponentially, but only a few examples.

First, look at the example of consonant assignment,

The assignment in Table 2 is preferred.

Because 'ㅎ' has a higher frequency than 'ㅊ, ㅋ, ㅍ, ッ', it is because the above mentioned principles are best observed.

Second, in the example of short vowel assignments,

Third, in the example of single vowel and double vowel assignments,

The assignments in Tables 6-4 and 9-2 below are most preferred.

because

Table 6-4 shows that 'ㅣ, ㅡ, ㅢ' is similarly assigned to Button 2, and 'ㅙ, ㅞ' with the same pronunciation, similar shape, and very low frequency of use is not assigned within 1 ~ 3 rows. It seems that a lot of other principles have been kept, such as being assigned to four lines that are difficult to work with.

Table 9-2 shows

Except for (ㅛ, ㅠ), in the composition of (short vowels, double vowels), the vowel vowels are the shapes that added 'ㅣ' to the short vowels, and (ㅛ, ㅠ) can be regarded as similar shapes or sounds. Many other principles seem to be followed, such as being assigned to four rows that are not assigned within three rows and difficult to work with buttons.

Fourth, in the example of consonants, short vowels, and double vowel assignments, the assignments in Tables 4 and 6 are most preferred.

Table 4 above shows

'2,', 'which is similar in shape to Button 2 is assigned together, and ㅙ, ㅞ, which has the same pronunciation, the same shape, and very low frequency of use, is fortunately difficult to work on buttons without being assigned within 1 to 3 rows. It seems that many other principles, such as those assigned to line 4, have been followed.

In Table 6, except for (ㅛ, ㅠ), in the composition of (single vowel, vowel vowel), the vowel vowel is the shape that added 'ㅣ' to the short vowel, and (ㅛ, ㅠ) can be regarded as similar shapes or sounds. This is because many other principles seem to be followed, such as being assigned to four rows that are difficult to work with and not assigned within one to three rows.

In Table 8, Table 13 also assigns letters to * or # buttons.

In the conventional commercial methods, there is no combination button for inputting letters, so if you assign letters only to 10 buttons from 0 to 9, up to 10 letters can be input by single stroke, and * or # only by single stroke. It can be used as a special function key, such as changing the character mode, but if you use the combination buttons to assign the function to * or #, you can actively assign letters to 0 ~ 9 and * and # to assign up to 12 letters. It is possible to input by single stroke.

 Conventionally, * and #, which perform any function as a single button in the mode of writing as a function button, have a lower frequency of use than a character button when writing a letter. This is because it is more efficient to do it by combination button with * or # button or by pressing several times and to write letters first.

At this time, if you do not want to use a combination button that uses two hands when writing a letter, you can also use the multi-tap method with one hand. Since the letter is written first, it is more efficient to use the combination button. You can specify any letter button as a combination induction button so that you can function as a conventional * or # button with both hands. Assign a volume control button or internet connection button that does not respond as an additional combination induction button that has the same function, so that the combination control button such as volume control button or internet connection button is on or off, or after it is on and off. When the * or # button is on, the function of the conventional * or # button can be performed. , * Or # If before the off and the button is turned on, or on and the combination induced buttons such as volume control button or the Internet access button on after being turned off may be possible to perform the function of the conventional * or # button. Or you can just specify that the volume control button or Internet connection button behaves like a traditional * or # button.

In Table 14 and Table 17, the vowel button and the consonant button are separately placed while the letters are assigned to the * or # button, so that the high consonant frequency and the high vowel frequency can be inputted in a single stroke when writing letters without support. I think it's the best way to do it.

In conclusion,

When comparing the method of the present invention and the most common method (manufacturer: Samsung Electronics)

In the method of the present invention

The number of characters that can be input by the single stroke is 10 letters first assigned to the buttons from 0 to 9 when no letters are assigned to * and #, and 2 if 12 letters are assigned to * and #. Dog,

The number of characters that can be input in two strokes (= one beat) is all the rest.

In the conventional natural way

As for the number of characters that can be input with a single stroke, the method of heaven and earth is '.' Is assigned to 9

The list of things that can be input by 1 and 2 is omitted.

The three inputs are ㄲ ㄸ ㅃ ㅆ ㅉ ㅑ ㅕ ㅛ ㅠ ㅚ ㅟ ㅐ ㅔ,

The four inputs are ㅘ ㅝ ㅒ ㅖ,

The five inputs are ㅞ ..

And vowels entered as 3, 4, 5 strokes will make a lot of mistakes when typing.

To further convincing the advantages of the method of the present invention so far, the method of the present invention is added to the method of Cheonjiin to solve the disadvantage of the method of Cheonjiin even when the method of the present invention is used in the same way. Let me explain that you can.

The Cheonjiin method is a combination of vowels and Cheonjiin, and consonants are input in a multi-tap method.

The Cheonjiin method is divided into vowel buttons assigned only to Cheonjiin and consonant buttons assigned to consonants.

There are two vowels that can be entered in single strokes: ㅡ and ㅣ.

There are five vowels that you can enter in two.

The three inputs must be 'ㅑ ㅕ ㅛ ㅠ ㅚ ㅟ ㅐ ㅔ'

The four inputs are four ㅘ ㅝ ㅒ ㅖ,

There are two 'ㅞ ㅙ' inputs that need to be entered.

What is the method of further applying the method of the present invention?

Consonants are assigned in the same way as Cheonjiin, but only in the multi-tap method in Cheonjiin. When subsequent spellings are assigned to the same button, such as when the initial letter of the back letter is assigned to the same button, enter the combination button, enter the spelling, and confirm the final character of the previous letter. As a final sign, you can press the right arrow to move the cursor or wait for 2 seconds, and the vowels can be assigned to each button even though the celestial buttons are left as they are. Not only can you enter it, but you can also In the multi-tap method, there is a change depending on the layout method, but any vowel can be entered by pressing the same button within 4 times, or the combination button method can enter all vowels with 2 or less, Even in the vowel requiring four to five strokes or the vowel requiring three strokes while pressing different buttons by the natural method, the method according to the present invention may be more convenient because of the simplicity.

That's how you want to assign all vowels to completion. However, the additional assignment of the vowels that can be entered within 2 strokes in the Cheonjiin method and the method of the present invention is completed in the mixed method of the method of the present invention. We will assign each button to completion. Of course, you can assign all vowels to completion.

In more detail, even if the method of the present invention is applied to the Cheonjiin method, the existing Cheonjiin buttons are left as they are and the remaining seven buttons are assigned with consonants first. 'There are only two (if you assign vowels to * and # buttons or assign vowels assigned to consonant buttons as the first letter before consonants, you can increase the number.)

If you assign additional completed vowels other than Cheonji to 0 ~ 9 button after the consonant, the vowels cannot be input by single tap, and you can enter by tapping several times with multi-tap or combination buttons. Vowels that can be entered in double or two strokes are not completed.

3 things you have to type in 'ㅑ ㅕ ㅛ ㅠ ㅚ ㅟ ㅐ ㅔ'

4 things you have to type in, ㅘ ㅝ ㅒ ㅖ,

What you need to enter with 5 strokes You can assign 14 total of 2 'ㅞ ㅙ' to each button, and input vowels with 2 strokes or less. The only six that need to be assigned as complete and three or less strokes can only be entered in the example of the combination of heaven and earth will be described.

(Of course, only the vowels that need to be typed as the five most common typos are assigned to the completed form, and those that can be entered with less than four strokes can be entered in combinations.)

In the method of assigning the vowels other than Cheonjiin to each button, it is possible to assign the completed vowel only to the consonant button or * or # button, not the Cheonjiin button. There are vowels that are completed by pressing buttons in succession (for example, '모음' is a collection containing a series of 'ㅣ' presses and 'ㅕ' is a collection containing a series of '.' Presses). There is no vowel that is completed by pressing, so even if you assign another complete vowel to 'ㅡ', there will be no contradiction to use the way that is heaven and earth.

And if 'ㅣ' and '.' If you want to assign additional complete vowels in addition to the multi-tap method, you can not enter the additional assigned vowels, and only the combination button should be able to enter the natural way will be able to enter. Because 'ㅣ' and '.' If you can enter other completed vowels assigned to the multitap method, the concept of using the existing celestial style is the same as it requires quite a lot of strokes to input vowels with consecutive pressing of 'ㅣ' or '.'. It is because it is not kept.

Now, let's take an example that uses the method of the present invention and the method of the present invention.

There are several manufacturers that use the Cheonjiin method, but Samsung is an example. The application to other manufacturers will not be explained because it will be easy to apply to Samsung's example. In Samsung's example, the number of cases is so large that it cannot be enumerated one by one.

The way it is currently in heaven and earth is as follows,

In the mixed example of applying the method of the present invention to the Cheonjiin method,

A. An example of assigning 3 or more vowels to the completed form only in addition to the celestial buttons among the 0 to 9 buttons

B. Example of assigning 3 or more vowels to the completed form only in addition to 0-9 buttons and * or # buttons

C. Example of assigning 3 or more vowels to the 'ㅡ' button among the Cheonjiin buttons as completed

D. Example of allocating three or more vowels to all the buttons

E. Example of assigning four or more vowels to completion

And one more example, let's see that even if the method of the present invention is additionally applied to LG's EZ input method, it is very efficient (Of course, it is better to assign all 40 alphabetic characters suggested by the present invention, but here I tried this to see only the effect of the invention.)

EZ input method is as follows.

Explaining how to use the above letter assignment table in detail,

Button 1 is assigned to the basic character "ㄱ", "stroke" additional characters "ㅋ", double consonant "ㄲ" is assigned,

Button 2 is assigned to the default letter "ㄴ", stroke additional letters "ㄷ, ㅌ", double consonants "ㄸ",

Button 3 is assigned the default letter "ㅏ, ㅓ" and stroke addition letter "ㅑ, ㅕ".

Button 4 has only "L" as the default character.

Button 5 is assigned to "ㅁ" as the basic character, "ㅂ, tec" as a stroke, "ㅃ" as a double consonant,

Button 6 is assigned the default character "ㅗ, TT" and the stroke addition letter "ㅛ, ㅠ",

Button 7 is assigned to the default letter "ㅅ", the stroke add letter "ㅈ, ㅊ", double consonants "ㅆ, ㅉ",

Button 8 is assigned to the default character "ㅇ" and stroke added "ㅎ",

Button 9 is assigned "ㅣ" as the default letter only.

Button 0 is assigned "-" only as a basic character.

The button * is used as a stroke add function button.

Button # is used as a function button to make a consonant.

And there are still fifteen letters that can only be formed by three or more strokes.

In other words

One letter that can be formed by one stroke is "ㄱ, ㄴ, ㄹ, ㅁ, ㅅ, ㅇ, ㅏ, ㅗ, ㅡ, ㅣ",

The letters that can be formed by the two strokes are "ㅋ, ㄷ, ㅂ, ㅈ, ㅎ, ㄲ, ㅆ, ㅓ, TT, ㅢ, ㅢ, ㅛ, ㅘ, ㅚ, ㅐ",

The letters that can be formed by three strokes are "ㅌ, ㄸ, ㅃ, ㅃ, ㅉ, ㅉ, ㅕ, ㅒ, ㅔ, ㅙ, ㅟ ㅝ",

The letters that can be formed by four strokes are "ㅖ, ㅞ".

(Total 40)

Here is an example of applying the method of the present invention

Among the vowels formed by three strokes and four strokes, “ㅒ, ㅔ, ㅙ, ㅟ, ㅝ, ㅖ, ㅞ”, which is not assigned to each button, are randomly assigned from 0 to 9 buttons (for example, button 9 In the "ㅔ, ㅖ,", button 0, "ㅟ, ㅙ, ㅝ,-"-Table 1), 2, 3, 4, and 5 combination induction buttons to write the second letter Characters formed only by three strokes and four strokes can also be used as two strokes without using the stroke add button or the double consonant button. (If you want to use 10 buttons of 0 ~ 9 button as consonant button and vowel button, up to 5th letter is only button 7 and button 0 as shown in Table 1 below. If one of the dog and the button 0 is assigned to the button 4 assigned only "ㄹ" and the button 8 assigned only "ㅇ, ㅎ" and composed as shown in Table 3, the combination induction button that causes the fifth letter to be written It is not necessary.)

LG EZ keyboard improvement example

For English, the number of alphabets is not many and the number of vowels is less than that of Korean. Considering the frequency of use of letters, it improves the convenience when inputting letters in the multi-tap method, and the letters assigned first by the method of the present invention. Since may be input as a single stroke instead of a combination method, consider the following.

1. Consider the frequency only, and assign the first, second, third letters to the button

2. Considering the frequency alone, it is greatly contrary to the button assignment format widely recognized in the telephones, and the user may be confused. Therefore, we will keep the assignment combination that is already commercialized as much as possible. It would be better for the user to notice what and what the alphabet assigned to the button would be, by changing the color of the fastest letter in the memorization song among the letters assigned to the button. It is capitalized.)

3. When 'N', 'M' and 'O' are assigned to the same button at the same time, 'N' and 'O' are frequently used, so 'NM' and 'O' are also assigned separately. ('O' has a higher frequency than 'N' and 'N' has a higher frequency than 'M'.)

If 'P', 'Q', 'R' and 'S' are assigned to the same button at the same time, 'P' and 'S' should be assigned separately because 'R' and 'S' are very frequently used. (The frequency of use of 'R' is sometimes lower or higher than 'S', but higher than 'P' or 'Q'.)

4. I assigned letters to the * or # buttons as shown in Table 1-6 or Table 2-5.

The solution of the advantages of assigning letters to the * or # buttons and the inconveniences of the conventional ones are described in the example of Hangul, so the detailed description is omitted.

 Table 1-6 times are also preferable. This is because the first letter assigned to each button is the 11 most frequently used except for 'W'.

The reason that 'I' (child) is not capitalized even if it is assigned to the button first is that the uppercase 'I' (child) is confused with the lowercase 'l' (L). In fact, in other cases where only one letter is assigned to a button (D, I, O, S in Table 1-6), the user cannot confuse which letter is assigned to the button, whether it is uppercase or lowercase. Because there is only one.

5. And

The frequency rank of 'P, Q, R, S, T' may be 'T, S, R, P, Q', 'T, R, S, P, Q',

The frequency ranking of 'V, W, X, Y, Z' may be 'W, Y, V, X, Z,' or 'Y, W, V, X, Z'

In the table below

Assigned to 'Wyx' as 'yWx', or

assigned in order of 'srP' to 'rsP', or

assigned in the order of 'srPq' to 'rsPq', or

'YWxz' assigned to 'Wyxz'

You can change the assignment.

In other words, the letters of any country are listed in order of frequency.

Although a bit more inefficient than this improvement, the combination of letters assigned to the button by the manufacturer's idea should follow this improvement, and the order of the letters assigned to each button should be in alphabetical order (e.g. It seems better than the conventional button assignment.

** Comparative example of the conventional method of English assignment and the present invention

It should be understood that all examples to date are only examples, but not all of the methods according to the present invention, and various modifications, changes, and combinations are readily possible by those skilled in the art.

And all the methods presented in the present invention may be set to the device arbitrarily by the manufacturer, but the device may be manufactured to be arbitrarily set by the non-manufacturer based on their convenience.

Hereinafter, a method of increasing the button efficiency of the electric and electronic device of the present invention will be described in detail.

This application summarizes the following four areas to improve the convenience and efficiency by improving the inconvenience when working with buttons, such as computer keyboard, telephone keyboard, electronic calculator board.

First, place frequently used buttons of calculator and phone close to the display

Second, place the combination induction button on the top of the computer keyboard

Third, improve the operation method of the computer toggle key

Fourth, create new work by combining buttons of other electronic devices (especially focusing on character input method)

In the following description, the first to fourth parts sequentially represented by the AAA part, the BBB part, the CCC part, and the DDD part represent the same fields.

Background art and the construction and effects of the present invention will also be described in comparison with the prior art for better understanding.

The term of the first improvement plan (hereinafter referred to as 'AAA part') is defined as follows.

First, as an example of a calculator

1. Display part: A normal liquid crystal screen belongs to a display part.

2. Numeric button part: area where the buttons assigned with numbers 0 ~ 9 are located

3.Arithmetic symbol button part: area where the addition, subtraction, multiplication, division, ENTER (= equal) buttons are located

4. Numeric button-arithmetic symbol button part: a word that combines the numerical button part and the arithmetic symbol button part

5.Other button part: Function button except numeric button and arithmetic operation button.

6.Button part: area where the group of buttons classified among similar ones such as number button-arithmetic symbol button part or other button part is located

7.Button parts: all areas except buttons

In addition, as an example of telephones,

1. Display part: A normal liquid crystal screen belongs to a display part.

2. Letters: words that combine letters, numbers, symbols, etc.

3. Function: Ability to do work except text display work

5. Character button part: the area where the buttons to write the letters are located (the area where the usual twelve buttons with 0 ~ 9, *, ＃ are assigned as the representative letters)

6. Function button part: the area where the buttons to work other than the writing work are located

7.Button part: The area where the group of buttons classified among similar characteristics such as letter button part or function button part is located

8. Buttons: All areas except buttons, ie buttons are located

9. Telephones: Words that integrate home telephones, mobile phones, PDAs, etc.

The term of the second improvement plan (hereinafter referred to as 'BBB part') is defined as follows.

1. Combination induction button: A key that makes certain functions impossible by itself, such as shift, control, alt, etc. If you press another key while you are pressed, it will do something. For example, if you press the P button while the control key is pressed, the print menu pops up, and many menus of the program are made possible by shortcut keys that require a combination induction button. Usually there are shift, control, and alt keys to the right and left of the keyboard dial.

2. Left combination induction button: The combination induction button assigned to the left of the keyboard dial

3. Right combination induction button: The combination induction button assigned to the right side of the keyboard dial

4. Combination induction button operation: When you want to do any command through the combination induction button, press the combination induction button and other keys

5. Other than the thumb: Speaks the whole of a baby, ring finger, middle finger, index finger except thumb

The term of the third improvement plan (hereinafter referred to as 'CCC part') is defined as follows.

1.Letter: words that collectively include letters, numbers, symbols, spaces, etc.

Toggle key: A key in which one key performs more than one mode switch

Ex) Character mode switching key such as Korean / English key

CAPS LOCK key: English uppercase mode, English lowercase mode switch key

NUM LOCK key: Numeric mode and direction mode switching key when key is pressed in separate number plate of 3 row 3 column on the right corner of keyboard

SCROLL LOCK key: Setting scroll function, cancel switch key

INSERT key: Insert key to insert or modify character

3.Pressing method: Pressing key

Ex) danta: short press

Double-click: Press twice quickly in succession

Triple click: 3 short successes

Long stroke: long press (about 1 second or longer)

4. Simultaneous press of A key and B key: Pressing B key while pressing A key

5. ON: The contact is attached

6. OFF: The contact is off

7. Combination status: whether the key acts alone or in combination with other keys, or when it is combined, the order in which it was pressed, how it was pressed, etc.

8. Combination induction button: A button for inducing a combination with other keys such as a control key, alt key, shift key, etc.

9. Mode checking device: device such as lamp which indicates which mode is the current mode

The term of the fourth improvement plan (hereinafter, referred to as 'DDD part') is defined as follows.

1. ON: The contact is attached

2. OFF: The contact is off

3. Letters: words that combine letters, numbers, symbols, etc.

4. Function: Ability to proceed with work (sometimes, it is ability to do work except text display work)

5. Letter button: When turned on, the button to write a letter or 12 buttons consisting of 0 ~ 9, *, #

6. Function button: When it is turned on, the button makes the work other than the writing work.

7. Combination Induction Button: Allows you to perform any action by a combination in which another button is turned on (or after it is turned off) after it is turned on, or until it is turned off (or turned off after another button is turned on). After) Button which lets you do any work by combination that oneself turns on.

That is, to operate the combination induction button preceding or following means that the manufacturer or a non-manufacturer decides arbitrarily.

And of course, the button to perform any operation even if only on (or after it is turned off), that is, a combination induction button in the conventional method, but the combination induction button may be referred to by the method of the present invention.

In addition to this situation, we refer collectively to the buttons that have the function of inducing the "combination" situation mentioned in 19.

8. Buttons dedicated to combination induction (shift buttons): Combination induction buttons such as shift buttons, control buttons, and alt buttons.

9. Button + number (e.g. "button 3": means button 3 is assigned or button 3 is assigned)

10. Push method: short, long, double click, triple click, number of presses, etc.

11. Combination status: whether a button works alone or in combination with other buttons, or when it is combined, the order in which it was pressed, how it was pushed, etc.

12. Task: Any situation where there is a change in the equipment. For example, moving a cursor or writing a letter belong to a task.

13. A combination of buttons that have been assigned a specific task in advance: This can either be a shortcut to an existing task or a combination that will do a new task.

14. Existing button operation method: refers to the position of each button of the existing product, the letter assigned to each button, the button combination, etc. required for the user to do the work that you want to do and does not consider the on or off adjustment of the button related to the present invention. Way.

15. T9, etc .: Present the user with one or more words that can be formed by the combination of spells assigned to the on buttons even if the spelling is entered in an undefined state using the word DB. By speaking through the conventional way of selecting words.

For example, in the case of entering letters, if one letter is assigned to one button even though several letters are assigned, the spelling can be made by inputting the spelling. When the device presents the user with one or more possible words, the user selects a word having the spelling desired by the user. Samsung's T9 mode, Motorola's iTAP mode, and Nokia's PREDICTIVE TEXT INPUT mode are all different. For example, in case of T9 type, when '4663' button is pressed, 'GHI' is assigned to '4', 'MNO' is assigned to '6', and 'DEF' is assigned to '3'. The device searches the dictionary database, and the device presents 'GONE', 'HOME', 'HOOD', 'HOOF', 'HONE', and 'GOOF' in order of frequency of use. This is the format.

16.Defined Characters: As a method used in the present invention to improve a character input method such as T9, the spelled letter is entered in the character input mode such as T9.

17. Candidate letters: Some letters assigned to a button when a letter button is turned on, as in the conventional T9 input method. If button 4 is turned on from above, 'G', 'H' and 'I' become candidate letters.

18. Unknown character: As a method used in the present invention to improve the character input method, such as T9, all characters assigned to all character buttons can be candidates. When searching on a computer, mainly '*' or '? ' Use One unknown letter may be substituted for two or more consecutive letters.

19 Combination: So far, the combination is only when the two buttons are on at the same time. However, if you use the combination buttons a lot, if you haven't mastered them yet, you can turn them on and off at the same time. In case of the wrong case, the first on-button is turned off and the next on-button is turned on within a predetermined time interval. In this case, if you want to input two letters by turning on / off two buttons, that is, make both buttons act as letter buttons, you can set the time when the first button is off and the time when the next button is on for a predetermined time. It should be operated beyond the interval.

And in the letter writing mode including volume control button or internet connection button, if the button that has no response even when turned on is specified as a combination induction button, the combination induction button and the partner relative button do not come on at the same time. It is also considered as a combination between buttons when there is no time interval limit between when the button is off and when the button is on.

20. Alphabets: Phonemes of whole phonetic characters, including English alphabets or similar European or Korean characters, but sometimes all letters.

21. Buttons: In addition to the type of buttons as well as intangible buttons such as touch pad and laser pad.

22. Letters: This refers to all letters, not letters or numbers, but alphabets, Korean, Japanese, or Chinese characters, but sometimes all letters, including symbols and numbers, are used in everyday life.

To describe the AAA in detail

In a device having a display unit and a button unit, a button unit having a low frequency of use is sandwiched between the display unit and the button unit, and thus, when the button of the device is pressed and the process of checking the display unit is repeated, Its movement range is wide and uncomfortable and tired, so it's easy to get a typo and it's hard to check through the display.

In the example of a calculator,

In order to explain the method of the present invention, the apparent part of the conventional calculator is divided into three components, firstly divided into a display part, a second number-arithmetic symbol button part, and a third other button part. . In the use of the calculator, the frequency of use of the numeric button-rule symbol button portion is much higher than that of the other button portion. Therefore, a lot of attention is focused on the number button-fourth arithmetic symbol button part and the display unit which displays the input contents. However, in the conventional calculator, the position of each component is shown in the display part at the top, the other button part in the middle, and the number button-rule symbol button part at the bottom, so that the focus of the eye moves from the top to the bottom. Often it reaches a wide range. Therefore, it is easy to feel tired and uncomfortable, so that typos are easy to come out, and it is difficult to check and check through the display unit, which takes a long time.

In addition, for example of telephones,

In order to explain the method of the present invention, the externally visible parts of the conventional telephones are divided into three components, firstly divided into a display unit, a second letter button unit, and a third function button unit.

First, in the use of telephones, the frequency of use of the character button portion is much higher than that of the function button portion. Therefore, much attention is focused on the character button unit and the display unit displaying the input contents. However, in the conventional telephones, the position of each component is located in the upper part of the display, the middle of the function button, and the lower part of the letter button so that the focus of the eye moves from the top to the bottom. There are many times. So it is easy to feel tired and uncomfortable because it is easy to make a typo, and it becomes difficult to check through the display, which takes a long time.

Second, in the case of holding the device of the phone and pressing the letter button at the same time with one hand, the letter button part is located at the bottom, so if you press the letter button part with your thumb, you need to hold the lower part of the phone unstable or If you hold the middle of the air flow, you must bend your thumb excessively downwards. The lower part of the device is held by only a part of the device is held in a stable state of holding the device, the risk of dropping the device and there are a lot of cases that actually fall, but holding the middle of the device and pressing the letter button part to bend your thumb excessively In many cases, the stability of holding the still hold is also less comfortable when pressing the lower button among the letter button portion. After all, it is most inconvenient when you press the button assigned “*, ＃, 0”.

* To explain how to solve the problems of the AAA part mentioned above

In a device having a display unit and a button unit, the more frequently used button unit among the button units is disposed closer to the display unit.

A. Example of Calculator

It is intended to solve the conventional problems by making the distance between the display unit and the frequently used numeric button-rule operation symbol button unit close. This problem can be solved by taking the display portion above, the number button-rule symbol button portion in the middle, and the other button portion below.

B. Example of the phone stream

In order to solve the conventional problems, the distance between the display unit and the frequently used character button unit is close, and the method of disposing the character button unit under the device is excluded. This may solve the conventional problem by placing the function button unit below the display unit and the letter button unit in the middle.

To describe the BBB in detail

If you want to work with combination buttons when using a computer keyboard, you have to press two or more keys. If you press a key with both hands one by one, there will be no problem, but when you cannot use one hand such as holding the mouse with one hand, or just want to do it with one hand, the combination induction button is located on the bottom of the keyboard. do. The inconvenience is caused because the positioning of the combination induction button is not ergonomic.

If you stretch your finger on the keyboard to press a key on the keyboard, your thumb is located farther away from your chest than your thumb. In Figure 12, the tip of your finger is closer to the first row and the tip of your thumb is closer to the sixth row.

So it's easy to press the space key on line 6 with your thumb. Because the tip of the thumb is on the 6th side, it's easy to press the space key on the 6th line.

However, in the conventional keyboard, since the combination induction button is located in 5 rows (shift keys) or 6 rows (control keys or alt keys), attempting to operate the combination induction buttons with one hand causes two problems as follows.

First, as a problem when working with the combination induction button on the left side of the keyboard in combination, in order to press the other keys other than the left thumb while pressing the combination induction button with the left thumb, it is possible to turn the wrist to the right at a very excessive angle. If you press the combination induction button with your right thumb and try to press a key other than the thumb of the right hand, the left part of the dial is covered by the back of your right hand when you press the combination induction button with your right thumb. It is virtually impossible to press another key with your left thumb, so you can press the combination induction button with your left thumb or the little finger, or press the other key with your left index finger in a very uncomfortable position. Is to press another key with your right thumb It is impossible.

Secondly, as a problem when working with the combination induction button on the right side of the combination induction button on the keyboard, the words "right" and "left" in the above mentioned contents can be interchanged.

In order to solve the above-mentioned problem of BBB part,

Place the combination induction button on one or two rows of the keyboard, that is, on the top of the keyboard. Fig. 1 is a method for conveniently performing a combination induction button operation.

Also, as shown in Fig. 12, the arrangement of buttons of a conventional computer keyboard, which is often used for a desktop, is about A (letter button portion), B (direction button portion), and C (secondary numeric button portion) for the following description. When divided into two, the letter buttons on the center of the square border of the "A" part is only in the "A" part, so the right hand movement distance from the mouse to the right side of the keyboard after entering the letter is large. Most people are right-handed.

That is, the keyboard layout of the conventional keyboard is an arrangement devised when there is no mouse, and should be regarded as left-handed use in a mouse-using environment as it is now.

Because the keyboard layout of the conventional keyboard is the right handed, the workload of the right hand is much larger than that of the left hand. The left hand only needs to handle a few combination-inducing buttons, function buttons, and the character button that the left hand is responsible for, but the right hand has the same kind of work that the left hand does, plus the button and mouse in the "B" or "C" section of FIG. I am in charge.

Therefore, the position of the character buttons is conventionally "A" part, but this application suggests that by changing to another position including the "B" part or "C" part, the difference between the workload of the right hand and the left hand can be greatly reduced. . In actual production, rather than moving only the letter buttons, it would be aesthetically pleasing to swap all the buttons in the "A" part of the rectangular border with the buttons of the "B" or "C" part as shown in FIG. do. That is, conventionally, the arrangement of the ABC sequence as shown in Figure 12, the BAC, CAB, BCA or CBA order degree is preferable by applying the method of the present invention. We believe that the BCA or CBA order is more preferable than the BAC or CAB. Then, when there is a button operation and mouse operation in the "B" or "C" part, it will be very comfortable to operate the button in the "B" or "C" part with the left hand and the mouse operation with the right hand. This load distribution is not easy with conventional keyboards.

To describe in detail the CCC unit

Conventional mode change signals are the same in the operation of the toggle key among the keys of keyboards such as computers, telephones, cellular phones, and PDAs. So, even if he gives a mode change signal, he is not sure whether he has changed to the desired mode. Therefore, there are many times when you need to check the current mode by turning on or off the NUM LOCK, CAPS LOCK and SCROLL LOCK keys corresponding to NUM LOCK, CAPS LOCK and SCROLL LOCK keys. In addition, in response to the Han-Young key, it is often necessary to check the display of the character mode such as "Han" if the current character mode is Korean, and "A" if it is English mode. Even though these mode check devices exist, there are still many cases in which the user's desired mode is different from the actual mode, and the user has to change the mode to the desired mode and work again. Because even though the current mode judgment is not accurate, oneself thinks that the current mode judgment is correct and does the work in the wrong mode without checking through the mode checking device, or in particular, changes the mode incorrectly to the wrong mode. The most frequent misoperation is that even if there is a confirmation device, it is not possible to make 100% sure of the mode change. In order to maximize the task pane at all times, set the taskbar auto hide mode in the Windows desktop taskbar menu, and the taskbar disappears while the program window is maximized. Of course, the text mode is not always known when you open the Internet site while maximizing the task window in the taskbar auto hide mode, and some programs such as Notepad do not display the character mode in the program itself. Although the character mode cannot be confirmed, it is annoying to check the character mode by moving the mouse pointer to the bottom of the monitor screen to make the task bar visible for a while even though the current character mode is uncertain. I think it's most likely in text mode I entered a letter, but unfortunately it wasn't the character mode I wanted, so there are many cases of misoperation. In addition, when entering a user ID or password when registering a member on the Internet site, the text mode is set to Korean mode, and an error message appears. Therefore, there is a lot of trouble to enter after changing to English mode. Because it is in English uppercase mode, an error message appears, so there is a lot of trouble to enter again after changing to English lowercase mode. When signing up at any site where you can also enter uppercase English mode, you were trying to enter your ID or password in lowercase letters. If you can not log in, I seemed embarrassed. Anyway, when working with the keyboard, such as working with documents such as word processors or typing a search word on the Internet, all of the above-mentioned misoperations are occurring a lot. have.

To explain how to solve the above problems

The conventional error described above occurs because the mode change signal is given only by the same signal (mainly single). As a solution to this problem, a method of giving a mode change signal of a different signal for each mode is presented. Only then will you be able to change modes at will. So if you think you are unsure about the current mode, you can give a signal of the mode you want and then work on it, so you don't actually need a mode check device such as a lamp. It is only necessary to check the current mode after a mode change signal has been received without a clear recognition of.

Now let's look at how to give a different signal.

First, instead of the conventional toggle key, a different key is assigned to each mode.

E.g

Instead of the Korean-English toggle key, the Korean mode key and the English mode key can be assigned separately.

Instead of the CAPS LOCK toggle key, the English uppercase mode key and the lowercase mode key can be assigned separately.

Instead of the NUM LOCK toggle key, the numeric mode key and direction key can be assigned separately.

Instead of the SCROLL LOCK toggle key, set the scroll function setting mode key and the scroll function cancel mode key separately.

Assigning insert mode key and modify mode key instead of INSERT toggle key, etc.

Secondly, the method of assigning different pressing methods such as single shot, double click, triple click, long hit, etc. while maintaining the conventional toggle key.

E.g

In the Korean-English toggle key, the single key is assigned to the Hangul mode, and the double-click is assigned to the English mode.

In the CAPS LOCK toggle key, the single stroke can be assigned to English lowercase mode and double click to uppercase English mode.

In NUM LOCK toggle key, single stroke is assigned to numeric mode, double click to directional mode.

In SCROLL LOCK toggle key, single stroke can be set to scroll mode, double click to scroll mode.

In the INSERT toggle key, assign a single hit to insert mode, a double click to modify mode, and so on.

Thirdly, a combination of a toggle key and another key is assigned to each mode while leaving the conventional toggle key intact. For example, here are two methods A and B.

A. Simultaneously press the toggle key while pressing the combination induction button such as shift key, control key, alt key, etc.

E.g

Korean-English Toggle Key Single button is assigned to Hangeul mode, Simultaneous pressing of Shift Key and Korean-English Toggle key is set to English mode. Assign a simultaneous press with the key,

CAPS LOCK Toggle key can be assigned to English lowercase mode. Simultaneous pressing of Shift key and Korean English key can be assigned to English uppercase mode.

NUM LOCK toggle key can be assigned to single mode in numeric mode, and simultaneous pressing of shift key and NUM LOCK toggle key can be assigned to direction mode.

SCROLL LOCK toggle key can be assigned to scroll function setting mode. Simultaneous pressing of shift key and SCROLL LOCK toggle key can be assigned to scroll function cancel mode.

Insert toggle key single insert mode, inserting shift key and insert toggle key simultaneously to modify mode, etc.

B. Simultaneous pressing of the toggle key and any key (or specific key)

ToggleKeys When pressed alone and simultaneously with a toggle key and any other key (or specific key). In this case, the signal by the toggle key should not be determined when the toggle key is on, but by the combination with other keys until it is off.

E.g

Korean-English toggle key single danta is assigned to Hangeul mode and simultaneous press of Hanyoung toggle key and any other key (or specific key) to English mode. Or assign a simultaneous mode of character mode switching toggle key and any other key (or specific key)

CAPS LOCK toggle key can be assigned in English lowercase mode, simultaneous press of CAPS LOCK toggle key and any other key (or specific key) in English uppercase mode.

NUM LOCK Toggle Key Single-Down can be assigned to Numeric Mode. Simultaneous pressing of NUM LOCK Toggle Key and any other key (or specific key) can be assigned to Direction Mode.

SCROLL LOCK toggle key can be assigned to scroll function setting mode, and simultaneous press of SCROLL LOCK toggle key and any other key (or specific key) can be assigned to scroll function cancel mode.

Single key for INSERT toggle key can be inserted into insert mode, simultaneous pressing of INSERT toggle key and any other key (or specific key) will be assigned to modified mode.

Fourth, different voice commands are assigned to different modes through the voice recognition device.

 Fifth, a method of allocating different body motions for each mode through a motion recognition device that senses motions by sensing motions

For example, assign a native language mode for sticking out the tongue and assign an English mode for biting the lower lip.

The sixth method is to display the mode of each toggle key by turning on or off the display lamp.

To describe in detail the DDD unit.

The method is to increase the button efficiency of the device when the number of buttons is smaller than the work type.The method of pressing the buttons (short, long, double click, triple click, number of presses, etc.), which has already existed so that one-hand operation can be performed While the work is performed by the method of the present invention while maintaining the same, almost no program is added to the existing product without the addition of hardware components such as a button, but the existing button operation method is used as it is, but a separate method is provided. The goal is to increase the versatility of the buttons, reduce the working time and improve convenience by enabling easy and new tasks.

According to the method of the present invention, even if it is a function button or a letter button rather than a combination induction button, it may be a combination induction button in addition to the original function. That is, any button can be combined induction button, so there is no distinction between the combination induction button, function button and letter button.

The following will be described with a specific example.

(The reason why the computer is given as an example is to explain that the present invention is an original method that can be applied to the present computer, that is, it does not claim that the effect is great on the present computer.)

First of all, if you look at a computer, conventionally, even though a computer keyboard has a relatively large number of buttons, the combination with other buttons can be combined only by a method of inducing a separate combination button such as Shift, Control, Alt. This is done to do the following.

First, you can assign a task to a shortcut key to make it easier (for example, to copy the computer screen as it is, a combination of the Alt button and the print screen button, and the print command is a button with a control button and "P" assigned to it). To form a shortcut by a combination).

The term "combination of buttons assigned to a specific task in advance" is used to express more broadly.

Second, a specific operation can be performed only by combining with the next button when the combination induction button is turned on. (For example, when you want to indicate "ㅖ" in Korean writing, the shift button and "ㅖ" are assigned. Only by pressing the button.

The above-mentioned conventional problem is that if a function button or a character button is pressed without any combination with a button dedicated to the combination induction, only a function is always performed or only a character is displayed until a function button or a character button is turned on and off. When you turn on another button, the combination does not create anything new than the original function or writing.

Looking at the application in the present invention,

First, as the "a" process, add the same function as the shift button to the button to which "S" is assigned, and add the same function as the control button to the button to which "C" is assigned, The description will be made on the assumption that A "is added in advance to the assigned button, in addition to the original function, to add the same function as the Alt button.

(In the description of page 1 below, only the "a" process condition is described. Instead of the button assigned the letter "S" in the above condition, all buttons in the "A" part of FIG.

 Instead of the button to which the letter "C" is assigned, all the buttons in the "B" part of FIG.

 By substituting all buttons in the "C" part of FIG. 12 instead of the button assigned with the letter "A", the control, shift, and alt buttons can be eliminated, which is ultimately dedicated to conventional combination induction. Since the number of buttons that can perform the same function is increased, the probability of misoperation can be almost zero when the task to press the dedicated combination induction button without looking at the keyboard.

If the other letter button is not turned on until the button assigned with the "S" is turned on and is turned off, and other buttons are turned on other than the button of which a different operation is assigned, the letter of the button assigned to the current letter mode is displayed. If another letter button is turned on, it can have the same function as the shift (for example, in Korean mode, "S" is assigned to a button ("b" is assigned to Korean). When the button assigned to the (Hangul is assigned the letter "ㅔ", the letter corresponding to the shift "ㅖ") is turned on, "Y" is written, the button assigned to "S" (Hangul "b" Turn on the button that is assigned the letter "P" before turning it on and then turning it off ("H" is assigned to the lower letter and "ㅖ" to correspond to the shift).) Only "ㅖ" is displayed ( To apply a trailing method to a button, turn on the button to which "P" is assigned (Hangul is assigned the letter "ㅔ" and the letter corresponding to the shift "ㅖ"). Is displayed when you turn on the button to which the button is assigned (Hangul is assigned to "B"), the button assigned to "P" is off, and the button to which "S" is assigned is turned on. "And" b "are displayed.)

And if you apply the above "a" assumption to the "b" process, you can add a new concept combination induction button function to the current letter button without adding a button on the keyboard.

For example, when a button assigned to "S" or "C" or "A" is turned on and then turned off before being turned off, the preset button is turned on to perform a predetermined operation other than displaying letters when combined with the shift button or control button or alt button. When the combination induction button is followed by the combination partner button, the preset button is turned on to perform a predetermined function other than character display when combined with the shift button, control button, or alt button. ON) and then turn OFF the button assigned "S" or "C" or "A" until it is OFF.

When a button with "S" or "C" or "A" is turned on and then combined with a shift button or a control button or an alt button before being turned off, the preset button is not turned on and another task is assigned. When a button other than the combination button is turned on, the letter of the button assigned to "S", "C" or "A" for the current letter mode is written, and the next button turned on until the button is turned off. It may be possible to determine the work by combination with the other buttons.

Also with the "c" process

   If the Home button is turned on after the Esc button is turned on after the Esc button is turned on in addition to the original Esc function, when the task to cancel the operation just specified is specified in advance, the Home button is turned off after the Esc button is turned off. If the Home button is turned on, the operation just canceled is performed.If the Home button is not turned on until the Esc button turns off and the other button is turned on, other buttons are turned on. The Esc button, which is the task of, can decide the action of the button by the combination of other buttons until the button is turned off.

In this way, control buttons that do not perform operations when they are originally on, or function buttons that perform operations when they are turned on except for the shift button or alt button, or combinations with other buttons that are turned on next until the character buttons are turned off You can also make other work happen.

* Herein, the case of "communication terminals such as mobile phones, PDAs, telephones, etc." will be described. (Depending on the matter, the method of the present invention may be applied outside the scope of the communication terminals.)

Mobile phones usually have thirteen function buttons on the front or side of the device and 12 buttons in three rows and four rows (10 zeros to nine numbers, letters and symbols, and "*" 1 button, 1 button with "#" assigned) There are a total of 25 buttons

In the conventional method, even if the function button is a button of the same position

Depending on what mode you are in, the function may be different (e.g. the right arrow moves directly to the phonebook menu on the initial screen but moves the cursor on the menu screen or while you are writing a letter).

If there is no operation related to the current mode, pressing the button does not work at all (e.g., the Internet connection button has a function to connect to the Internet in the initial state and selects a song in the MP3 mode, but there is no response at all in the compose mode). )

Regardless of the current mode, it can do the same function unconditionally (e.g. exit button will be changed to the initial screen or initial screen regardless of the current mode.

And, as in the computer, the letter button is always displayed as soon as you turn on, and when you turn on another button until some letter button is turned on and off, it does not work except the letter is displayed.

And if you have multiple letters assigned to one button

The first letter is usually just a short press of the button.

The second or third letter is usually pressed several times, such as double-click or triple-click, until the letter is displayed (multiple-clicking method is not determined only by pressing several times, but by pressing other letter buttons or pressing the letter already displayed. Press and hold a button (for example, a direction button) that conveys your intention to make a selection, or wait for 2 seconds for the character to select itself and move the cursor.

In addition, the proposed method is similar to the method of the present invention, after turning on or off a button assigned with "*", or turning on a button assigned with letters in the on state, the second letter assigned to the button is displayed, and "#" "If you turn on or off the assigned button, and you turn on the button that the letters are assigned to, the third letter assigned to the button is displayed, but there are some problems.

First, a combination-induced button can be used to write "*" or "#" to a specific sequence of letters assigned to another button only if no letter is assigned to "*" or "#". In other words, when the "*" button has a letter assigned to it and the second letter assigned to another button acts as a combination induction button, there is no combination induction button that causes the second letter assigned to the "*" button to be written. to be.)

Pressing the button assigned with "7" while pressing the button assigned with "*" and pressing the button assigned with "9" while holding down the button assigned with "#", Button, button assigned with "7", button assigned with "#" and button assigned with "9" The two buttons of each pair are connected in the vertical direction, so that the thumb contacts and interferes with each other. Do.

In particular, hold down the button assigned with "*" with your left thumb and press the button assigned with "7" with your right thumb, and hold down the button assigned with "#" with your right thumb and press the button assigned with "9". Pressing with the thumb of the left hand makes both thumb contact and interference worse.

In addition, the thumb movement range is much less the method according to the present invention.

(The reason for referring to the range of finger movement is that in the conventional case, while entering a character, when you try to press a function button such as an arrow button or a cancel button that is slightly out of the letter button part, you feel considerable inconvenience. This is because the method of the present invention can significantly reduce the finger movement range compared to the conventional method even if compared only within the letter button portion.

If the method of the present invention is applied, the function of the frequently used function button when inputting letters such as arrow buttons or cancel buttons is additionally assigned to the letter button part, and even if special characters are additionally assigned, the character button part within 2 letters without changing the text mode. This is because you can use the function of the function button or input special characters.)

Because in the method according to the present invention, if the combination induction button is assigned only the buttons in the 1st and 3rd column, the left hand thumb is only 1 and 2 columns (or 1 column only), and the right hand thumb is only 3 columns (or 2,3 columns only). ) If you designate * or # as a combination induction button, the left hand thumb and the right hand thumb should be in charge of both 1,2 and 3 columns.

And if you specify a combination induction button to only buttons belonging to 1 to 3 by the method of the present invention, since the letter button is only one button on the fourth row, the thumb moves only one to three rows, but * or # combination induction If you specify a button, when you try to press a letter button, the left hand thumb and the right hand thumb move 1,2,3,4 lines all the time.

And as I'll explain later, only combination buttons that use two or more letters can be specified with * or #, so that the first and second letters are completely incomplete, and the second and third letters are written incompletely. It is possible to designate as a combination induction button, it is possible to enter a letter within two ties only up to 20 characters, incompletely 30 characters, but in the method of the present invention 0 to 9 buttons assigned a letter is also a combination induction button It is possible to specify more letters, so you can enter more than two letters. Psychologically more than 3 strokes or long press makes you feel much more uncomfortable than 2 strokes.

("Incomplete" above means that the combination of the following multi-tap method or multi-tap method and combination buttons do not resolve the inconvenience when you do not specify the combination induction button to write the first letter.) For example when

1.English: If the alphabet is assigned to the same letter button, it means to confirm or wait 2 seconds or press the right arrow to move the cursor. Even the first letter. Otherwise, the word "aa" will be used, but only "b".

2.Hangul: When the initial letter has a backrest, if the last letter (= back) and the first letter of the back letter are assigned to the same button, wait 2 seconds or press the right arrow to confirm the final letter of the first letter. Move the cursor. Otherwise, the word "each" is used to write the word "each".

In fact, this phenomenon of Hangul is also included in the case of one consecutive alphabet.)

In addition, a 'adjacent key input method' has been developed that combines the up, down, left, and right buttons of the direct button of the button assigned to the letter to be written, but this has the advantage, but the button and the straight button are assigned to the letter to be written. When combined with other letter buttons with combination induction buttons including "*" and "#" of the two, it is more frequent than when combining only the "*" and "#" as combination induction buttons. More often, interference occurs.

In addition, due to pressing the adjacent buttons with both hands, a lot of keyboard problems occur, and when you try to press the letter button, both hands thumb should be in charge of 1,2,3 rows.

The adjacent key input method determines which combination induction button should be selected according to the number of the desired letters assigned from the button to which the letter to be assigned is assigned. It's easy to get confused about using it as an induction button.

For example, if a button has three letters assigned to it,

To use the button assigned to the desired letter, type the letter assigned to the second (= middle)

The button on the left of the button to which the desired letter is assigned becomes a combination induction button for entering the first letter assigned to the button to which the desired letter is assigned.

When the button to the right of the button to which the desired letter is assigned is designated to be a combination induction button that inputs the third letter assigned to the button to which the desired letter is assigned.

When 'G, H, I' is assigned to button 4

If you want to enter 'H', just press button 4.

If you want to input 'I', enter the combination with button 4 by using button 5 on the right as combination induction button.

If you want to input 'G', you have to use the button on the left as a combination induction button, and even if you try to enter it in combination with the button 4, there is no button on the left side. Inconsistency is inevitable (there is a general rule that the left or top button should be a combination-driven button that allows you to enter the first letter).

As a result, buttons 1, 4, and 7 in column 1 have the same problem as above.

In addition, the buttons 3, 6, and 9 in the third column do not have the right button, so they have no choice but to adopt the combination of the lower button as a combination-induced button with a third letter (so the right button or the lower button). A general rule arises that is a combination induction button that causes the third character to be entered.)

After all, when you enter the first letter assigned to a button in row 1 and the third letter assigned to a button in column 3, it is easy to be confused unless you are a master of which buttons to apply as combination induction buttons.

In addition, in the case of Button 1, there is no left button and there is no upper button, so there is no way to write the left letter (= 1st letter), so only 2 letters can be assigned to Button 1.

Therefore, when a button acts as a combination induction button, the combination induction button is selected in consideration of the spatial positional relationship with the combination induction button with the button to which the desired letter is assigned according to the number of letters from the button to which the desired character is assigned. In addition, when the same button acts as a combination induction button, the combination induction function is changed, resulting in inconsistency.

For example, button 2

Because it is on the right side of button 1, it also functions as a combination induction button that causes the third letter assigned to button 1 to be written.

Since it is on the left side of the button 3, it also functions as a combination induction button that allows the first letter assigned to the button 3 to be written. Therefore, it is necessary to check the number of letters to the assigned button to determine the combination induction button. .

And in a slide-type cell phone

If you hold down button 4 with your left thumb and try to press button 1 with your right thumb, your right thumb will be stuck on the upper slide with the liquid crystal, making it difficult to press button 1.

If you hold down button 6 with your right thumb and try to press button 3 with your left thumb, your left thumb is stuck on the upper slide with the liquid crystal, making it difficult to press button 3.

However, the method of the present invention is not selected according to the spatial positional relationship with the button to which the desired letter of the combination induction button is assigned, as if the first button (or second) and the third letter of the conventional button * and button # As firmly determined by the combination induction button to write

Buttons 1 and 3 are combination induction buttons that allow you to write the second (or first) letter.

Buttons 4 and 6 are combination induction buttons that allow you to write a third (or second) letter.

Buttons 7 and 9 are combination induction buttons that allow the fourth (or third) letter to be written.

Buttons * and # are combination induction buttons that allow the fifth (or fourth) letter to be written.

Buttons 2 and 8 are combination induction buttons that allow the sixth (or fifth) letter to be written.

Buttons 5 and 0 can be designated as combination-induced buttons that allow the seventh (or sixth) letter to be written, so that each letter can be increased to less than two strokes while significantly increasing the number of characters (including special characters) assigned to each button. Input, and the function of the combination induction button is consistent.

(Of course, if there are no letters assigned to buttons * and # on the above, and the finger movement range is widened and finger interference occurs, button * and button # can be set as combination induction buttons that perform different functions. You can also specify a combination-inducing button that causes the eighth (or seventh) letter to be written.

Also, since the *, # button functions as a combination induction button may precede or follow the character button, the *, # button is a combination induction button that writes the ninth (or eighth) letter after the * button. You can also specify a combination-induced button that writes the tenth (or ninth) letter following the letter button.)

The above examples are described in more general context in support of the claims.

Although a button is assigned to a combination-inducing button that, when combined with another button, induces a certain kind of action (for example, writing a second letter assigned to another button), that particular kind of action Manufacturer or manufacturer of two or more combination-inducing buttons that induce the same kind of work, even when another button combines the same kind of work with the other three buttons mentioned above. How one or more events that are specified by

What kind of action does the button induce when the button acts as a combination

It does not change depending on the spatial position relationship with other buttons,

How to always specify the same regardless of spatial position with other buttons

It can also be called.

 We will now start with a concrete example.

In a button similar to that of a normal telephone, the letter button has 0 to 9, *, ＃ and other letters (0-9, *, ＃ as the representative letters).

Until each letter button is turned off and then off,

When another letter button is turned on, the first letter button is used as a combination inducing button to write the first letter assigned to the later letter button, or the first letter button is assigned to the first letter button. The combination induction button, which acts as a combination induction button for writing letters, specifies that any two buttons (first button and second button) are included.

In addition, the first letter button acts as a combination-inducing button that causes the second letter assigned to the letter button to be written later, or the second letter assigned to the letter button first to be written later. The combination induction button, which acts as a combination induction button, specifies that any two buttons (third button and fourth button) except the first button and the second button are included.

Combination that causes the first letter button to write the third letter assigned to the letter button afterwards, or a combination that causes the third letter assigned to the letter button to be turned on later. As a combination induction button acting as an induction button, it is designated to include any two buttons (a fifth button and a sixth button) except the fourth button in the first button.

Also, the first letter button acts as a combination induction button that causes the fourth letter assigned to the letter button to be written later, or the fourth letter assigned to the letter button first to be written later. The combination induction button, which acts as a combination induction button, specifies that any two buttons (seventh button and eighth button) except for the sixth button from the first button are included.

Combination button that causes the first letter button to be written as the fifth letter assigned to the letter button that is later on The combination induction button, which acts as an induction button, specifies that any two buttons (the ninth button and the tenth button) except the eighth button to the first button are included.

Combination that causes the first letter button to write the sixth letter assigned to the later letter button, or the combination that causes the letter button to be written later to the sixth letter assigned to the first letter button. The combination induction button, which acts as an induction button, includes a method of arbitrarily designating by a manufacturer or a non-manufacturer such that any two buttons (11th button and 12th button) except for the 10th button are included in the first button. Any method in which more than one event exists that specifies two or more combination-inducing buttons that lead to work can be adopted.

Let's look at a few tables that illustrate the above method as a specific example.

2 and 3 are a combination table of several combinations that can be the first to fourth buttons,

4 and 5 are a combination table of some of the numerous combinations that can be the first to sixth button,

6 and 7 are a combination table of several combinations that can be the first to eighth buttons,

The above button combinations will be understood by those skilled in the art without having to present a table if the contents of the present invention are understood.

(In the table of Figs. 2 to 7

Among the letters 0-9, *, * and other letters, 0-9, *, 대표 are the representative letters, and the representative letters mean the positions in the general four-row and three-column keyboard as shown in FIG. So in a three-row and four-column keyboard where four rows and three columns seem to have rotated 90 degrees, the placement of buttons is defined by the word "row" as "column". You can change it and replace the word "column" with the word "row." Of course, in this case, the representative letter means the position of 3 rows and 4 columns, not the letter itself.)

In this way, if the method of the present invention is applied, two or more combination-induced buttons that allow arbitrary sequence letters of the buttons to be turned on can also be set to the letter buttons, so that contact and interference between fingers do not occur, and finger movement ranges. It is possible to assign the same number of characters to all the buttons, and to use the "*" button and the "#" button as a combination-inducing button that does not specify a combination of other functions (including the separate functions performed by conventional modes). There is an advantage that can be used as a button. The following example will cover this in detail.

On the other hand, in the case of the existing mobile phone is doing something immediately when the button is on. According to the method of the present invention, when a button is turned on after a button is turned on and then a specific task is designated in advance, the predetermined task may be performed in advance, or the original operation of the button may be performed.

a. If you have a specific example, the menu screen is displayed as soon as the menu button is turned on in the past, but by applying the method of the present invention, the right button is turned on until the menu button is turned off and then immediately turns into a screen for viewing a pending message. Due to the limited environment of limited number of buttons, one function button does not allow you to immediately view low-use hold messages. However, the combination of buttons changes the screen to view hold messages. If the right direction button does not turn on until other buttons are turned off, and other buttons are turned on, other than the buttons that make up the specified combination, the menu screen is displayed while the next button is turned on until other buttons are turned off. The combination with and allows you to determine the action by the button.

In this way, the button assigned to the letter can be combined into a button.

b. If the button to which "1" is assigned and the button to which "3" is assigned, in addition to the original function of writing the letter assigned to that button, the button assigned to "1" or the button assigned to "3" When the other letter button is turned on before it is turned off, the second letter of the other letter button is set to a combination-inducing button in advance so that when the button assigned with "1" or the button assigned with "3" is turned off, If the other letter button is turned on before, the second letter of the other letter button is written and the other letter button is not turned on until another button is turned off after the button assigned to "1" or the button assigned to "3" is turned on. When a button other than the specified combination is turned on, the first letter of the button assigned to "1" or the button assigned to "3" is written while the next button is on. The button is off And to decide the operation according to the button by the on the combined state of the other buttons.

c. In addition to the original function of writing a button assigned with "1" to the button, the pending message is displayed when the menu button is on until the button assigned with "1" is turned on and then turned off. When it is specified in advance, the menu button is turned on until the button assigned to "1" is turned on and then turned off, and the message is displayed on the screen, and the menu button is turned off after the button assigned to "1" is turned on and turned off. If a button other than the button that is not turned on and the other task is in the specified combination is turned on, the first letter of the button assigned with "1" suitable for the original operation, the current character mode, is written, and the next button is turned on. The combination of other buttons that were turned on before the button was turned off would determine the action by that button.

d. If the button assigned to "4" and the button assigned to "6" are turned on, the button assigned to "4" or the button assigned to "6" is turned on in addition to the original function of writing the letter assigned to the button. When the other letter button is turned on and the third letter of the other letter button is set in advance, the combination button that induces the third letter of the other letter button is written. When the letter button is turned on, the third letter of the other letter button is written, and the other letter button is not turned on until the button assigned with "4" or the button assigned with "6" is turned on and another job is assigned. If a button other than a button is turned on, the first letter of the button assigned to "4" or the button assigned to "6" is written, and the next button is turned on. Been on until it was off By a combination of circumstances with different button to decide the operation according to the button.

e. If the button assigned with "7" and the button assigned with "9" have the button assigned with "7" or the button assigned with "9" in addition to the original function of writing the letter assigned to the button, When a different letter button is turned on, a button assigned to "7" or "9" when pre-specified as a combination induction button that induces an action when the other letter button is pressed (assuming that the number assigned to the button is written). If the other letter button is turned on before the button assigned to "on" is turned off, the number assigned to the other letter button is written, and the button assigned to "7" or the button assigned to "9" is turned off after being turned on. If no other letter button is turned on until another button is turned on and another operation is turned on, the first letter of the button assigned to "7" or the button assigned to "9" is written. The button that came next And determines the operation according to the button by a combination state of the other buttons to the on-off before the button.

f. If each letter button in letter writing mode has the function to write letters, and if the direction button is turned on after each letter button is turned on and off, when the direction button is turned on by the number assigned to the letter button, If the direction button is turned on after each letter button is turned off, the operation is performed when the direction button is pressed by the number assigned to the letter button, and the direction button is not turned on until each letter button is turned off. If a button other than the button in the specified combination is turned on, the first letter of the letter button corresponding to the original button's current character mode is written and the next button is turned on until the button is turned off. Combination with other buttons is used to determine the action by the button.

g. If in "Writing Mode", the button assigned to "7" will be written to the current cursor if the call button is on until the button assigned to "7" is turned on after the button assigned to "7" is turned on. When a predetermined special character group is changed to the screen that is displayed immediately, if the call button is turned on before the button assigned to "7" is turned on and off, the special character group is changed to the screen. "If the assigned button is not turned on after the assigned button is turned on but before it is turned off, and another button is turned on, other than the button of the specified combination," 7 "is assigned to the current text mode. When the first letter of a button is written, the next button is used to determine the action of that button by the combination of other buttons that were on before the button was turned off. .

h.If in the letter writing mode, if the button assigned to "7" is in addition to the original function of writing the letter assigned to the button, the call button is on until the button assigned to "7" is turned on and then off. When you specify in advance that a specific special character to be written in the cursor is written, if the call button is turned on before the button assigned with "7" is turned on and off, the specific special character is written, and the button assigned with "7" is If the call button is not turned on until another button is turned on and another button is turned on, other than the button which is made up of the specified combination, the first letter of the button assigned with the letter "7" suitable for the original text mode is written. When a button is turned on, the next button that is turned on will determine the action taken by that button based on its combination with other buttons that were turned on until the button was turned off.

i. It also allows you to save a predefined task as a name or number so that in the writing mode, a button assigned with "7" has a button assigned with "7" in addition to the original function of writing the letter assigned to the button. When the OK button is turned on after turning on, the user is prompted to write a predetermined job name or job number, and when the job name or job number is entered, the button assigned to "7" is assigned. If the OK button is turned on after the ON is turned off, a message to write a predetermined job name or job number appears, and if the job name or job number is entered, the specified job is performed and the button assigned to "7" is turned off. If the OK button is not turned on until another button is turned on, and another button is turned on, other than the button that makes up the specified combination Button assigned "7" for the current letter mode. The first letter is written and the next button is determined by its combination with other buttons that were on until the button was turned off. Let's do it.

On the other hand, in contrast to the example of the existing method and the method applied to the present invention in the mobile phone,

If you want to send "I LOVE YOU FOR EVER red heart symbol" by text message

In the existing mobile phone system as shown in Figure 1 (manufacturer: Samsung Electronics)

After entering the screen for sending text, converting to English capital letters mode,

1.Button 4: Display G (the cursor blinks without confirmation)

2. Button 4: Display H (Only the cursor blinks without confirmation)

3. Button 4: display I (the cursor blinks with no confirmation)

4. Right button or wait 2 seconds: select I

5. Right direction button: space

6. Button 5: Display J (the cursor blinks with no confirmation)

7. Button 5: Display K (the cursor blinks without confirmation)

8. Button 5: Display L (the cursor blinks in unconfirmed state and is confirmed when the next button is on)

9. Button 6: Display M (Only cursor blinks)

10. Button 6: Display N (the cursor only blinks without confirmation)

11.Button 6: Display O (Only the cursor blinks in unconfirmed state and is confirmed when the next button is on)

12. Button 8: Display T (the cursor blinks without confirmation)

13. Button 8: Display U (the cursor blinks without being confirmed)

14.Button 8: Display V (only the cursor blinks when not confirmed, and is confirmed when the next button is on)

15. Button 3: Display D (Unchecked, only cursor blinks)

16. Button 3: Display E (the cursor blinks with no confirmation)

17. Right button or wait 2 seconds: select E

18. Right arrow button: Space up

19 Button 9: Displays W (only the cursor blinks with no confirmation)

20. Button 9: Display X (the cursor only blinks without confirmation)

21.Button 9: Display Y (only the cursor blinks without confirmation, and is confirmed when the next button is on)

22. Button 6: Display M (Unchecked, only cursor blinks)

23. Button 6: Display N (Only cursor blinks)

24. Button 6: Display O (Only the cursor blinks in unconfirmed state and is confirmed when the next button is on)

25. Button 8: Display T (the cursor blinks with no confirmation)

26. Button 8: Display U (only the cursor blinks without confirmation)

27. Right button or wait 2 seconds: U will be selected.

28. Right arrow button: Space up

29. Button 3: Display D (Cursor blinks without confirmation)

30. Button 3: Display E (the cursor blinks with no confirmation)

31.Button 3: F is displayed (only the cursor blinks without confirmation, and is confirmed when the next button is on)

32. Button 6: Display M (Unchecked, only cursor blinks)

33. Button 6: Display N (the cursor blinks without confirmation)

34. Button 6: Display O (Cursor only blinks in unconfirmed state and is confirmed when next button is on)

35. Button 7: Display P (Only cursor blinks)

36. Button 7: Display R (indeterminate only cursor blinks)

37. Right button or wait 2 seconds: select R

38. Right arrow button: Space up

39. Button 3: Display D (Cursor blinks without confirmation)

40. Button 3: Display E (the cursor only blinks when not confirmed, and is confirmed when the next button is turned on)

41.Button 8: Display T (the cursor only blinks without confirmation)

42.Button 8: Display U (only the cursor blinks without confirmation)

43. Button 8: V is displayed (the cursor only blinks when not confirmed, and is confirmed when the next button is turned on)

44. Button 3: Display D (Unchecked, only cursor blinks)

45. Button 3: E is displayed (only the cursor blinks without confirmation, and is confirmed when the next button is on)

46. Button 7: Display P (Only cursor blinks)

47. Button 7: Display R (only the cursor blinks without confirmation)

48. Right button or wait 2 seconds: select R

49. Button 5 Right Button: One Space

50. Button *: Changes the mode from uppercase letters to special characters

51. Press Down Direction Button 12: Move to the group to which the red heart symbol belongs.

63. (= 51 + 12) Button 5: Red Heart Symbol Selection (If you press Button 5 on the screen that displays the group to which the red heart symbol belongs, the red heart symbol is selected.)

On the other hand, in the case of applying the method of the present invention,

As a precondition

㉠

-After the button assigned "1" or the button assigned "3" is turned on, in addition to the original function of writing the button assigned "1" and the button assigned "3" When other letter buttons are turned on, they are designated as combination induction buttons that induce the second letter of another letter button to be written, and the other letter buttons until the button assigned with "1" or the button assigned with "3" turns on after being turned on. When it is turned on, the second letter of the other letter button is written, and the other letter button is not turned on until the button assigned to "1" or the button assigned to "3" is turned on and then turned off, and the other operation forms a specified combination. If a button other than the button is turned on, the first letter of the button assigned to "1" or "3" assigned to the current text mode, which is the original operation, is written, and the next button is turned off. Another button that came on until before And it makes a decision operation by that button by a combination of conditions.

-After the button assigned "4" or the button assigned "6" is turned on in addition to the original function of writing the button assigned "4" and the button assigned "6" When other letter buttons are turned on, they are designated as a combination induction button that induces the third letter of another letter button to be written, and the other letter buttons until the button assigned to "4" or the button assigned to "6" turns on after turning on. When it is turned on, the third letter of the other character button is written, and the other character button does not turn on until the button assigned to "4" or the button assigned to "6" turns on and turns off, and the other operation forms a specified combination. When a button other than the button is turned on, the first letter of the button assigned to "4" or the button assigned to "6" for the current text mode, which is the original operation, is written, and the next button is turned off. Another button that came on until before And it makes a decision operation by that button by a combination of conditions.

㉡ In the text message sending mode, in addition to the original function of writing a button assigned with “1”, the button assigned with “1” is turned on. By designating a combination induction button that induces the display of a red heart symbol on the cursor, the red heart symbol is displayed on the current cursor when the menu button is turned on until the button assigned with "1" is turned on and off. " If the button assigned to 1 "is on and off, the menu button is not turned on, and if another button is turned on, other than a button for which the other operation is made in the specified combination, the first letter corresponding to the current mode is written and the next button is turned on. The combination of other buttons that were turned on before the button was turned off would determine the action by that button.

㉢ In the text message sending mode, in addition to the original function of writing a button assigned with “1”, the button assigned with “1” is turned on and the cancel button is turned on until the button is turned off before being turned off. Designated as a combination induction button that induces the operation of displaying the special character group to which the red heart symbol belongs to the cursor. If the cancel button is turned on until the button assigned with "1" is turned on and off, the red heart is displayed at the current cursor If the button to which the symbol belongs is displayed, and the button assigned with "1" is on and off, the cancel button is not turned on until another button is turned on and another operation is turned on. When you write the second letter, the button that comes on next determines the action by that button based on its combination with other buttons that were on until the button was turned off.

㉣ In any mode, if the direction button is turned on until the numbered button is turned on and off, the button is pressed as many times as the number assigned to the assigned button and the button assigned to the number is turned on. If a button other than the directional button is not turned on until another button is turned on and another task is not turned on, the button that is turned on while writing the first letter suitable for the current mode is turned on until the button is turned off. The combination with other buttons allows you to determine the action by that button.

Looking at the process of describing "I LOVE YOU FOR EVER red heart symbol" while considering the preceding conditions mentioned above by the method according to the present invention,

In uppercase alphabetic mode

1.Button 6: Button 4 in Step 2 will be turned on to make the combination-induced button to select the third letter assigned to the next letter button, because the third letter of Button 4 to be turned on in Step 2 is I. It remains on until it is pressed. (The button 4 also has a combination induction button that selects the third letter of the next letter button, like button 6, but keeps button 4 on and button 4 again in step 2). Keep button 6 on)

2. Button 4: I is selected (since Button 6 remains on)

3. Right direction button: Space

4. Button 4: The third letter of Button 5 to be turned on in Step 5 is L,

The third letter of button 6 to turn on in step 6 is O

Since the third letter of button 8 to turn on in step 7 is V,

Turn button 4 on until button 4 in step 5, button 6 in step 6, and button 8 in step 7 turn on. Keep it.

If button 6, which is a combination induction button that allows the third letter assigned to the next button to be selected like button 4, is used as a combination induction button in this case, keep button 6 on and click button 6 in step 6. In addition, if you use button 6 as a combination induction button because it cannot be turned on, "OV" can be used only by a further increasing procedure.

5. Button 5: L is selected (since button 4 is on)

6. Button 6: O is selected (since Button 4 remains on)

7. Button 8: V is selected (because Button 4 is still on)

8. Button 1: When Button 3 of Step 9 is turned on in order to make a combination-inducing button that selects the second letter assigned to the next letter button, because the second letter of Button 3 to be turned on in Step 9 is E. (The button 3 also acts as a combination induction button that selects the second letter of the next letter button, like button 1, but you can also turn on button 3 in step 9 while keeping button 3 on.) So only button 1 stays on)

9. Button 3: E is selected (since Button 1 remains on)

10. Right arrow button: A space is displayed.

11.Button 4: The third letter of button 9 to be turned on in step 12 is Y

Since the third letter of button 6 to be turned on in step 13 is O

Turn button 4 on until the third letter assigned to the next button is selected, and keep button 4 on until button 9 in step 12 and button 6 in step 13.

If button 6, which is a combination induction button that allows the third letter assigned to the next button to be selected like button 4, is used as a combination induction button in this case, keep button 6 on and In addition, if you use button 6 as a combination induction button because it cannot be turned on, "O" can be used only by a further increasing procedure.

12. Button 9: Y is selected (since button 4 remains on)

13. Button 6: O is selected (since Button 4 remains on)

14. Button 1 or Button 3: Since the second letter of button 8 to be turned on in step 15 is U, step 15 is used to make button 1 or button 3 a combination-induced button so that the second letter assigned to the next button to be selected is selected. It stays on until button 8 is on. Since Button 1 and Button 3 have the same function, Button 1 or Button 3 is turned on.

15. Button 8: U is selected.

16. Right direction button: A space is displayed.

17. Button 4: The third letter of Button 3 to be turned on in Step 18 is F

Since the third letter of button 6 to be turned on in step 19 is O

Turn button 4 on until the third letter assigned to the next button is selected, and keep button 4 on until button 3 in step 18 and button 6 in step 19 turn on.

If button 6, which is a combination-induced button that allows the third letter assigned to the next button to be selected like button 4, is used as a combination-induced button in this case, keep button 6 on; In addition, if you use button 6 as a combination induction button because it cannot be turned on, "O" can be used only by a further increasing procedure.

18. Button 3: F is selected (since Button 4 remains on)

19. Button 6: O is selected (as Button 4 remains on)

20. Button 3: Since the second letter of button 7 to be turned on in step 21 is R, button 7 of step 21 is turned on to turn the button 3 into a combination-induced button so that the second letter assigned to the next button to be selected is selected. Keep button 3 on until

If button 1, which is a combination-inducing button that allows the second letter assigned to the next button to be selected like button 3, is used as the combination-inducing button in this case, keep button 1 on and then press button 7 in step 21. If you press and hold button 1 to turn it on, button 7 will be difficult to see.

21.Button 7: R is selected (as button 3 remains on)

22. Right arrow button: One space

23. Button 1: Since the second letter of button 3 to be turned on in step 24 is E, when button 3 in step 24 is turned on to make the combination-induced button to select button 2 as the second letter assigned to the next letter button Keep button 1 on until button 3 is also a combination induction button that selects the second letter of the next character button, like button 1, but keeps button 3 on in step 24. It can't be turned on, so keep only Button 1 on.)

24. Button 3: E is selected (since Button 1 remains on)

25. Button 4 or Button 6: Since the third letter of button 8 to be turned on in step 26 is V, the button 4 or button 6 is to be combined to induce the combination button so that the third letter assigned to the next button is selected. It remains on until button 8 on 26 is turned on. Button 4 and button 6 have the same function, so button 4 or button 6 is turned on.

26. Button 8: V is selected (as Button 4 or Button 6 remains on)

27. Button 1: When the button 3 of step 28 is turned on to make the combination-inducing button that selects the second letter assigned to the next letter button, because the second letter of button 3 to be turned on in step 28 is E. (The button 3 also functions as a combination induction button that selects the second letter of the next character button like the button 1, but in step 28, the button 3 can be turned on again while keeping the button 3 on.) So only Button 1 stays on)

28. Button 3: E is selected (since Button 1 remains on)

29. Button 3: Since the second letter of button 7 to be turned on in step 30 is R, button 7 of step 30 is turned on to turn the button 3 into a combination induction button so that the second letter assigned to the next button to be selected is selected. Keep button 3 on until

In the case of using button 1, which is a combination-inducing button that allows the second letter assigned to the next button to be selected, such as button 3, as the combination-inducing button in this case, button 1 remains on while button 7 in step 21 If you press and hold button 1 to turn on, button 7 will not be visible.

30. Button 7: R is selected (as button 1 or button 3 remains on)

31. Right button: one space

32. Button 1: Menu button in step 33 to turn Button 1 into a combination induction button that induces the display of a red heart symbol on the current cursor when the Menu button is turned on until the button assigned to Button 1 is turned on and off. It stays on until it is on. Precondition "" is applied

33. Menu button: Red heart symbol is displayed (But button 1 is on.)

Step 33 above can also be done by the following two methods.

First, how to apply the precondition "㉢",

a. Turn on the Cancel button while Button 1 is on: Display the special character group to which the red heart symbol belongs.

b. Button 5: red heart symbol selection (since red heart is displayed on the 5th)

Also look at how the precondition "㉣" is applied,

a. Button *: Changes the mode from English capital letters to special characters.

b. With the button 9 on, turn the down button on: Has the same effect as pressing the down button 9 times

c. With the button 3 on, turn the down button on: The same effect as pressing the down button three times (in the same way as pressing the down button 12 times, it displays a group of special characters with a red heart symbol).

d. Button 5: red heart symbol selection (since red heart is displayed on the 5th)

To summarize the results of the example, in the conventional method of writing only the letters "I LOVE YOU FOR EVER", while pressing the button 48 times in the method of the present invention, the load can be more evenly distributed to the right and left hands while pressing the button 30 times. Also, since the combination with the combination induction button is to press twice with both hands, it is much closer to the one-time short press like a single stroke than the time it takes to press twice with one hand like a double-click (in theory, 100 times with one hand). The time to press or 100 times with both hands and 200 times in total is the same, so the combination with both hands can be expressed as a single stroke or a beat rather than two). You'll be able to complete the task of writing a letter.

In the above example we have entered the English alphabet, but if you apply it to Japanese input, the effect will be greater. When applied to the English alphabet, there are some advantages, including the effect given by the following words.

Japanese characters are 50 characters, and 5 letters are assigned to one button. Characters that can only be input through 4 or 5 strokes can also be input by 2 strokes according to the method of the present invention. It is not expected to decrease to / 48 (62.5%), but to 20-30%.

 Hindi, with 46 characters, will have a similar effect to Japanese.

Thai, consisting of 76 characters, will be much more effective than Japanese.

In any case, the higher the number of element characters, the greater the effect.

In order to enter words containing a series of alphabets assigned to the same button, it is the act of confirming the alphabet written first, which can eliminate the need to move the cursor or wait for 2 seconds by pressing the right arrow. It can be said.

E.g

"DEF" and "AC" in the words "DEFACE"

In the word "TUVALU", "TU" and

In the word "SPRING" and "SPR"

In the words "CABBAGE" and "CABBA"

In the word "BACCY", "BACC" and

In the words "BABOON", "BAB" and "OON"

"NOON" in the word "AFTERNOON"

Is a contiguous sequence of alphabets assigned to the same button, which eliminates the need to confirm the behavior as in the conventional multi-tap method.

For this reason, it is expected to be about the same as the speed of text input in a mobile phone with many keyboards, such as a computer keyboard, recently developed to improve the text input speed.

In addition, in the touch screen method, when the keyboard is displayed on the screen, the keyboard may cover the majority of the screen. However, the method according to the present invention does not naturally occur because a letter is assigned to the button.

The conventional method of writing a red heart symbol is to press the button 14 times, while the method of the present invention solves the problem of pressing the button only two times, at least in the method of writing a special character, depending on how the combination is specified. The ratio of time savings can be greatly improved.

Combination induction buttons can be used to reduce the range of finger movement by using the letter buttons rather than '*' or '#' or other function buttons. Assigning a function to a letter button will also reduce the range of finger movement.

When compared to the multi-tap method only a few advantages of the present invention are summarized below.

First, you can enter all letters (up to about 100 characters) within 2 strokes.

Secondly, when you enter the letters assigned to the same button consecutively, pressing the right arrow to confirm the first written letter can eliminate the need to move the cursor or wait for 2 seconds. Decreases,

When writing a letter assigned to the same sequence number (even after the second) assigned to another button, the third type may be inputted as one stroke. (E.g., Nos. 5, 6 and 7 of the present invention application example of I LOVE FOR EVER. process)

Fourth, the above-mentioned "communication terminals such as mobile phones, PDAs, telephones, etc." has the advantages described by dedicating more than ten pages.

 If we expand further here,

For example, if a combination of letter buttons is specified in advance, only a combination that performs a specific task may be used to express uppercase and lowercase letters without changing the mode, and change the phoneme assignment of consonant buttons or vowel buttons in Korean or other foreign language buttons. Can easily change the phoneme assignment in a way that allows the user to conveniently write the letters assigned to the buttons.

In addition, if you combine the existing techniques such as long press, double click, triple click, etc., it will be possible to do a very large number of tasks without going through the menu screen.

In addition, if the spelling mode of the present invention is applied to a letter writing mode such as T9, the spelling of some or all of the spellings is determined, and thus the number of candidate words presented by the device is reduced so that the user can quickly enter a word.

The word spelling or alphabet used below when searching for data consisting of Japanese unique characters or Chinese characters in terms of the method of the present invention, which is made up of Japanese unique characters rather than phonemes of phonetic characters including Japanese hiragana or katakana You can apply it by replacing with unique characters.

The same can be said when using not only Japanese characters but also other unique characters or special characters, such as phonemes.

In fact, it is not mentioned separately because it can be intuitively understood to be equally applicable in the previous description, and may not be understood intuitively in the following description.

For example, in the case of the T9 method, when the user wants to input 'HOOD', when the user presses the '4663' button, 'GHI' is assigned to '4' and 'MNO' is assigned to '6', '3' is assigned to '3', so the device searches the dictionary database for the combination of 'GONE', 'HOME', 'HOOD', 'HOOF', 'HONE', and 'GOOF' If the user suggests that the user moves the cursor to 'HOOD' and selects it, but by applying the method of the present invention after confirming and inputting 'D' of 'HOOD', the device displays only one word of 'HOOD'. You don't need to move it, just select it, because while you use the conventional T9 method, you will find it convenient to confirm a few spells in your experience. The fewer candidates the fewer candidates will be.

For example, a method of confirming spelling by the method of the present invention designates 'button 1' or 'button 3' as a combination induction button for writing the first letter assigned to the next button, and 'button 4' Alternatively, specify 'button 6' as the combination induction button that causes the second letter to be assigned to the next button, and 'button 7' or 'button 9' to write the third letter assigned to the next button. If you do not want to set the spelling to 'D' from above, simply press 'Button 3' alone, and if you want to set the spelling to 'D', hold down the 'Button 1' Press 3 '.

In addition, the number of candidate words can be reduced by confirming some spellings. As many spelling letters as needed to complete a word (the spelling is not confirmed, that is, a few letters assigned to the pressed button) or the definite letters (spellings A word that the device will display even if you enter only a portion of the word without typing it, or unknown characters (there are no spelling predictions, the computer usually searches for words using "*" or "?"). There won't be a lot of them, and it will be convenient for the user to input only a part.

In addition, special characters such as '*', '#', ', (comma)', and '%' are applied to the method of improving the input of characters such as English and Chinese described on page 15 below. It is desirable to assign such special characters so that special characters can be directly input without changing the character mode.

It is also preferable to assign other special characters that are often used to write text messages.

In the method such as T9, each time a letter is input, the most frequently worded word corresponding to the number of letters entered so far is displayed continuously, so that only a part of the word is spelled (candidate or definite or unknown). If you want to display the candidate word of the word you want, you should give a signal that the user has entered only a few spellings. This is because the device automatically considers that the user inputs the same number of spellings as, and if there is no signal, the device automatically considers that the user inputs less than the spelling number of the desired word. Any word or phrase that contains spelling (= word If it is supposed to automatically display a candidate word or candidate phrase, it should be signaled that the number of spellings is the same so that the number of candidates can be reduced. In this way, the method of giving a signal indicating that the number of spellings is small and the same can be arbitrarily determined by the manufacturer or the user.

For example, in the method such as T9, each time a letter is input, the word most frequently corresponding to the number of letters entered so far is displayed continuously.

If the user presses button 4 to write the word 'HOOD', the most frequent "G" in the first letter of "G, H, I" assigned to 4 is displayed first, followed by pressing button 6 first. In the combination of Dunn Button 4 (G, H, I) and Button 6 (M, N, O), the most frequent "IO" is displayed first, followed by Button 6 (G, H, I). ) And the most frequent "HON" in the combination of button 6 (M, N, O) and button 6 (M, N, O) is displayed first, followed by button 4 (G, H, In the combination of I) and button 6 (M, N, O) and button 6 (M, N, O) and button 3 (D, E, F), the most frequent "GONE" is displayed first, but the frequency of use Move the cursor to "HOOD" followed by "HOME" and "HOOF" which are displayed in the following order, in order. (Frequency or displayed letters are randomly expressed.)

The number of spellings required to complete the word above (no spelling, ie, a few letters assigned to the pressed button) or definite letters (spelling confirmed) or unknown (no spelling can be predicted at all). For example, if the computer can display a part of a word without typing it, the computer usually searches for words using "*" or "?".

When the user wants to use the word "HOMEPORT", the button 4 (G, H, I), button 6 (M, N, O), button 6 (M, N, O), button 3 in the conventional T9 method. (D, E, F), Button 7 (P, R, S), Button 6 (M, N, O), Button 7 (P, R, S), Button 8 (T, U, V) The candidate word group in which "HOMEPORT" is included as a candidate word is displayed, but according to the present invention, the user can combine combination induction button + button 4 (confirm "H"), button 6 (M, N, O), Combination induction button + button 6 (confirm 'M'), button 3 (D, E, F), combination induction button + button 7 (confirmation 'P') By button 3, the four digits are almost confirmed as "HOME" (of course, it is more certain if each letter of the word "HOME" is confirmed), and the device is then candidates for the user by the "P" which is finally entered. If you display 'HOMEPLATE' and 'HOMEPORT' as words, the user can select the desired 'HOMEPORT'. Expression becomes possible. Of course, it is also possible to give an unknown letter signal while inputting up to 'P' (for example, the button 3 may be marked with '*' or another symbol as another unknown letter).

If you don't confirm 'P' and the user signals that only some spelling of the word has been entered, you can't tell whether Button 7 is 'P', 'R', or 'S' even if 'HOME' is confirmed. A large number of all words containing ',' R ',' S 'are candidates, ie

HOMEPLATE, HOMEPORT, HOMER, HOMERANGE, HOMERIC, HOMERULE, HOMERUN, HOMESCHOOLING, HOMESCREEN, HOMESECRETARY, HOMESELLING, HOMESICK, HOMESIGAL, HOMESITE, HOMESPUN, HOMESTAND, HOMESTAY, HOMESTEAD, HOMESTEADER, HOMESTEADING, HOMESTRETCH In the displayed state, the user must select a desired word.

The examples so far are not necessarily realized as such, but the frequency, the candidate words to be displayed, and the like are arbitrarily set to explain the concept.

In the conventional method such as T9, 'HOME' is not confirmed, so the actual candidate words will be much more. When there are a large number of candidate words, when the desired word is in alphabetical or frequency order, a situation in which a large number of cursor movement buttons must be pressed is opened.

And even though the input method mode such as T9 does not use the input method such as T9, it will not take much time to enter all the spellings of the word. Inputting spelling by combining two buttons uses two hands anyway, so one hand only takes care of one button, so when you are skilled, you can input almost one button at the same speed as a single stroke, and spelling input such as T9. Moving the cursor to the desired word among the displayed candidate words that are almost essential in the method is unnecessary and only needs to be selected as it is, so the time taken to enter the desired word may be faster compared to the conventional T9.

It can also be programmed to omit the body of action to be selected once all spelling has been confirmed and entered.

For example, in the T9 and the like, in which the word "HOMEPORT" is input while comprehensively explaining the application of the method of the present invention in parallel with the conventional method, each word may be entered in a letter input mode such as T9. Spelling can be input by combining various methods such as the existing method, the method according to the present invention, or the method similar to the present invention without changing the mode. Methods characterized by this also claim to be novel in the present invention. (In conventional T9, if the word you want to enter does not exist in the DB, it is inconvenient to switch to multi-tap mode and completely enter the desired word and then return to T9 mode. In particular, URL, proper noun, e-mail address, and various This is the case when entering human names, foreign words, technical words, etc.)

The term "multiple ways" for entering letters so that the mentioned candidate words are displayed is a combination of the methods 1 and 2 below.

1. As a type of letter, "A" (definite letter) or "B" (candidate letter) or "C" (unknown letter)

2. The number of spells to be entered, "la" (the total number of spells) or "e" (the number of spellings) necessary to form a complete word.

The number of possible combinations of 1 and 2 is ga + la, ga + ma, me + la, me + ma, da + la, da + ma, ga + na + la, ga + na + ma, me + da + Da, Da + Da, Da + Da + Da, Da + Da + Da, Da + Da + Da + Da, Da + Da + Da + Da Here are just a few examples of searching and searching.

Here are just a few examples of how to write a text message. (Let's also enter HOMEPORT. For example, English alphabets are defined letters, numbers are candidate letters, and '*' is unknown letters.)

First, a method of inputting a combination of "I" and "D", which is a conventional T9 method.

(Enter "46637678" so candidates can be displayed.

Button 4 (G, H, I), Button 6 (M, N, O), Button 6 (M, N, O), Button 3 (D, E, F), Button 7 (P, R, S) Button 6 (M, N, O), Button 7 (P, R, S), Button 8 (T, U, V). This detailed description will be omitted below.)

Second, enter the combination of "me" and "e".

(Enter "46637" to display the candidate words, and signal that the spelling count is insufficient. As mentioned above, the case and method of giving the spelling number can be determined by the manufacturer or user. In a DB with the same few records, there are not many candidates with the spelling entered, so it is better to give the same signal only when the spelling number is the same without giving a special signal when the spelling number is insufficient.

Third, enter a combination of "a" and "e".

(Enter and type "HOMEP" for candidate words to be displayed and signal a lack of spelling)

Fourth, to enter a combination of "a" and "la"

(All spellings are entered with "HOMEPORT", so there is only one candidate word. You do not need to select it.)

Fifth, enter the combination of "a" and "me" and "da" and "la".

(Enter the desired word and spelling number with "H6 * EP67T" so that candidate words can be displayed.)

Sixth, to enter a combination of "a", "me", "da" and "e"

(Enter "H6 * EP6" to display the candidate words and signal that the spelling count is insufficient or "* EP6" to indicate the spelling count is insufficient.)

Here, one more term in the definition of terminology is that "one unknown character (exampled below with"% ") can also specify that two or more consecutive letters can be substituted." We also propose a method of inputting a search word by dividing the part with a separator.

Why this method is useful

First, in English, when you can't know not only spelling by sound but also the number of spelling, you can enter the part where you know exactly spelling as a search word.

Second, in the case of English, the front part (= mainly root) is the same and tends to be differentiated into words such as parts of speech due to the spelling change at the end. In this case, as an example of the first method, spelling may be input by combining the "a" to the "e" method by dividing into the last part and the last part of the word. Since one unknown letter may replace two or more consecutive letters, the unknown letter is used as a separator that separates the last part from the last part of the desired word. In other words, before inputting the last part, a signal such as a special symbol (eg,%) indicating that the last part is inputted later may be inputted.

Words containing 'SENS' include SENSE, SENSEFUL, SENSELESS, SENSELESSLY, SENSIBILITY, SENSIBLY, SENSITIVE, SENSITIVITY, SENSITIZE, SENSOR, SENSORIAL, SENSORY, SENSUAL, SENSSUALITY, SENSUALLY, SENSUOUS, SENSSUAL, there is

Observations show that candidate words can also be reduced by typing the root 'SENS' and the end of a word. This is because words such as English have many variations due to spelling at the end.

Let's look at a few examples of how to enter a search term when "SENSUALIST" is the word you want to enter.

As an example of a search term by the first method

1. S% N% U% LIST

2.SE% SU% * 7T

3. Enter a search term such as NS% AL to generate candidate words that contain "SENSUALIST".

As an example of a search term by the second method

1. SENS% IST

2. 7367% 478

3.S3 * 7% * 7T

4.S3 * 7% 7T

5. S3 * 7% T

6.S3 * 7% 8

7. You can also enter 3 * 7% 8, etc. to generate candidate words that contain "SENSUALIST".

In addition, as described above, in applying the method of inputting spelling by combining the "e" to "e" above, a significantly smaller number of records than a language dictionary, such as a phone book of a mobile phone (here, a record is defined as two or more words). It is very easy to understand if you think that it is made up of phrases). The low number of records is also useful because the number of candidate records is low when retrieving multi-word records. This method is useful when there are many letter buttons and few records, but only a few records. Therefore, this method is also useful for devices with many buttons, such as a computer keyboard, and can be applied to improvement methods such as T9. Here's how to apply it.

1.How to input letters when there is only one spelling per letter (or cursor) like English

(Here are a few examples of `` VOLFGANG AMADEUS VON MOZART '', where the English alphabet is a definite letter, the number is a candidate letter, and the `` * '' is an unknown letter, for example). A slash (/) is used to indicate a space that is actually a space.The separator between letters is a comma (,) or a '#'. Can be replaced by another symbol)

First, enter the combination of "I" and "La"

For example, one or more search words are selected from among the words of the record to be selected so that the candidate records can be displayed. For the selected words, the candidate letters are input according to the complete spelling number. To enter "661278" or "2623387 866" to search for the word AMADEUS VON.)

Secondly, enter the combination of "me" and "do"

E.g

Enter only the first letter of each word (type "8 2 8 6" to signal that there are some words that lack spelling numbers)

Or enter more than the first letter of each word. (Enter "86 26 8 661" to signal that you have a word that lacks spelling.

Or enter only a part of the word you want. Here, enter "387" to search for EUS of AMADEUS and signal that there is a word with insufficient spelling.)

Third, enter the combination of "a" and "e"

E.g

Enter only the first letter of each word (enter "V A V M" and signal that there is a word with insufficient spelling)

Or enter more than the first letter of each word. (Enter "VO AM V MOZ" to signal that there are insufficient words for spelling.)

Or, select one or more words for search among the words of the record to be selected so that the candidate records can be displayed, and enter a definite letter with insufficient spelling for the selected word ("MOZ" to search only with the word MOZART). Only after input signals a word that lacks a spelling count.

Fourth, to enter a combination of "a" and "la"

For example, one or more words for search are selected from among the words in the record to be selected so that the candidate records can be displayed. Enter "MOZART" to search or "AMADEUS VON" to search for the word "AMADEUS VON".)

Fifth, enter the combination of "a" and "me" and "da" and "la".

For example, one or more words for search are selected from among words of a record to be finally selected so that the candidate records can be displayed, and the definite letters, candidate letters, or unknown letters are input according to the complete spelling number. (Enter "M6 * 2 * T" to search for the word MOZART or "A6 * 3E8S V * 6" to search for the word "AMADEUS VON".)

Sixth, to enter a combination of "a", "me", "da" and "e"

For example, in the selected words, one or more search words are selected from among the words of the record to be finally selected so that the candidate records can be displayed. (Enter "M6 * 2" to search for the word MOZART or "A6 * 3E V *" to search for the word "AMADEUS VON" and then signal that there are words with insufficient spelling numbers, or " Enter "* 8S V *" to search for the word EUS VON "and signal that there are words with insufficient spelling)

2. Each character (usually one cursor is assigned, hereinafter 'letter' often means 'unique character') such as Korean or Chinese or Japanese, has its own sound and spells one or more alphabets How to enter letters when expressed in combination

(In the case of Chinese or Japanese, it is possible when the unique characters of the country are included in the contents of the record field and the unique characters are automatically interpreted as Pinyin notation similar to the alphabet of English. Similar to the example in '3', when searching the data in the database with '中華民國 大 統領' with the Pinyin symbol similar to the English alphabet, the device is automatically solved as 'JUNG, HWA, MIN, GUK DE, TONG, LIONG'. It is possible to assume that it is searched, and it is possible to apply Hangul as Pinyin to Hangul phoneme alphabet.

(The only difference between English and English is that you enter one letter, but when you enter multiple spellings, you can mark it as a delimiter.) As a delimiter between letters that can be less than the number of spelling of the comma (in Korean, you can not enter the delimiter between letters, because you can see that the letters have changed because you just entered the initial consonant) In the above two cases, the delimiter between letters is adopted, but the delimiter between the letters in the above two cases can be any symbol (including no separator or a space). However, if the separator between letters is one space, the separator between words can be two spaces. And may also to other symbols.)

As an example of looking for 'Kim Joon-Hyung Hansa 2 Teacher' and '中華民國 大 統領', we will use only the third and sixth examples of English above. For example, a number is actually represented by a slash (/) before or after the number. Spaces are actually expressed as spaces. Separator between characters is represented by a comma (,) or '#'. When applied to, unknown characters or actual numbers or spaces or separators between letters can be replaced by other symbols.)

Third, enter the combination of "a" and "e"

E.g

Enter only the first letter of each word

(Enter "ㄱ ㅎ ㅅ" to signal that there is a word that lacks spelling. Enter "J D" to signal that there is a word that lacks spelling.)

Or enter the first letter or more of each word.

("ㄱ ㅎㅎㅎ ㅅㅅ" or "ㄱ, ㅈ, ㅎ ㅎ, ㅈ ㅅ, ㅅ" and inputs a signal indicating that there are insufficient spelling words.

After inputting "JHMG DTL", "J, H, M, G D, T, L" or "J, H D, T, L", it signals that there is a word with insufficient spelling number.)

If it's the opposite

The delimiter between letters after consecutive spellings

If there is a comma, it is a signal that a sequence of spellings is sequentially entered from an arbitrary position of an arbitrary character unit due to pinyinization of a unique character of a desired word.

Without a comma, logic can be used (in the same way as Korean) to signal that only the first alphabet of the alphabet corresponding to each unique character is input due to pinyinization of the unique character of the desired word.

E.g

"JHMG," or "JH," has a comma at the end, so each alphabet can be regarded as a sequence of alphabets of Pinyin Chinese characters and searched for "JUNG, HWA, MIN, GUK DE, TONG, LIONG" can not do. You can search by using "JUN," or "JUN, H" or "JUN, H, MIN" by putting a comma after the alphabet after the character at any position.

Since "JHMG" or "JH" does not have a comma at the end, each alphabet is regarded as a consecutive alphabet from any position of any character unit of the pinyin of Chinese characters, and is regarded as' JUNG, HWA, MIN, GUK DE, TONG, LIONG. Search is possible, and so on)

Or, select one or more words for searching among the words of the record to be selected so that the candidate records can be displayed and input the definite letters with insufficient spelling for the selected words.

(In order to search only with the word "Kim Joon-Hyeong", after inputting only "ㄱㅈ" or "ㄱㅈㅎ", it signals that there is a word that lacks the spelling count.

To search only with the words "DE, TONG, LIONG", only the words "D, T" or "D, T, L" or "DTL" will signal that the word has insufficient spelling count)

Or if you want to search for "June" but you want to enter only part of the word "주" or "ㄱ주 ㅎ" or "ㄱ, 주, ㅎ", give a signal that there is a word that lacks spelling numbers, or "ㄱ주" or "ㄱ, After you enter "week" or "ㄱ주 ㅎ" or "ㄱ, 주, ㅎ", signal that you have a word that lacks spelling.

Or, if you want to search for "TONG" but you want to enter only a part of "TO", then you type "D, TO, L" to signal that there are words with insufficient spelling.

If "June" should not be used to search for "June", use the "###" or "B, ##" After inputting # ㅎ "or" ㄱ, 주 # ㅎ "or" ㄱ, ㅈ * # ㅎ ", signal that there is a word that lacks spelling because of" ㄱ "or" ㅎ ". In this case, you cannot search for "Jun" and as a result, you cannot search for "Kim Joon-Hyung Hanja 2 Teacher."

If "TO" should not be searched for "TONG", enter "D, TO # L" after the "D", using "#" as a delimiter to indicate the same spelling number as "TO". Or a word that lacks spelling because of "L" signals. In this case, you cannot search for "TONG", and as a result, you cannot search for "JUNG, HWA, MINGUK DE, TONG, LIONG".

Sixth, to enter a combination of "a", "me", "da" and "e"

For example, or for selecting words, select one or more words for search among the words of the record that you want to make final selection so that the candidate records can be displayed. do. (You can enter "ㅅ * 5" or "선, * ㅐ, 5" or "선, ㅅ * ㅇ # 5" to search for the word "teacher," and signal that you have a word that lacks spelling.)

Or "* 8 * * 2 /" ('/' indicates that '2' is actually a number rather than a candidate character) to search for the word "Kim Joon-hyung Hanja2" Gives.)

"D, *, 5" or "DE, T * N, 5" or "DE, TO * 4 # 5" or "* E, TO * G #, to search by the words" DE, TONG, LIONG " Typing L * 6 "will signal that you have a word that lacks spelling.)

3. From the beginning, one or more delimiters can be applied in the middle of a word to be used when entering and searching. It can be applied to a language similar to English, but the advantage of using is small and if there is a unique sound for each unique letter such as Chinese, when the sound is input as Pinyin similar to the English alphabet, the user's own character unit or user How to enter a search term based on the format you entered when you searched after applying separators where you want

* For example, I don't know how to read '中華民國 大 統領' in Chinese, but I'm reading as 'President of the Republic of China'. Let's say you typed 'JUNG, HWA, MINGUK DE, TONG, LIONG' using a comma, which is a separator between letters. The Republic of China in the Republic of China was entered without a separator.

 There are also several ways to enter a search word to display 'JUNG, HWA, MINGUK DE, TONG, LIONG' as a candidate for selection, but only the third and sixth examples of English above are examples below. For example, the alphabet is a definite letter, the number is a candidate letter, and '*' is an unknown letter. For example, the number is actually preceded by a slash (/) before or after the number. The delimiter between letters is represented by a comma (,) or '#'. In practice, unknown characters or actual numbers or spaces or delimiters between letters may be replaced by other symbols.)

Third, enter the combination of "a" and "e"

E.g

Enter only the first letter of each word (enter "J D" to signal that there are words with insufficient spelling)

Or, enter more than the first letter of each word. (Enter "J, H, M D, T, L" and signal that there is a word with insufficient spelling.)

Or, select one or more words for searching among the words of the record to be selected so that the candidate records can be displayed and input the definite letters with insufficient spelling for the selected words.

(To search only with the words "JUNG, HWA, MINGUK"

Only "J, H" or "J, H, M" signals that there is a word with insufficient spelling count after input.

Or if you want to search for "MINGUK" and only want to enter a part of it as "MING", type "J, H, MING" to signal that there are words with insufficient spelling or "H, MING" or "HW, MING". Later it signals a word that lacks spelling.

If you should not search for "MINGUK" because of "MING", use "J, H, MING #" or "JUN, H," After typing MING # ", a word that lacks spelling signals.

Even in this case, the search for "MINGUK" fails, and as a result, the search for "JUNG, HWA, MINGUK DE, TONG, LIONG" is not possible.

Sixth, to enter a combination of "a", "me", "da" and "e"

For example, in the selected words, one or more search words are selected from among the words of the record to be finally selected so that the candidate records can be displayed.

(Such as "J, *, 6" or "JUN, H * A, 6" or "JUNG, ** A # 6" or "JUNG, A, 6" to search by the words "JUNG, HWA, MINGUK" And then signals that you have a word that lacks spelling.)

In addition, a combination induction button (which may designate two or more combination induction buttons having the same function) may be used to maximize the number of signals that can be generated by a single stroke or in combination with another button.

Here, the signal is not only a function to write a letter, but also may be another function. At this time, the two buttons to be pressed are vertically connected, so the interference between the fingers will not be considered. The following description will only refer to a case in which only one combination induction button comes on ahead of the character button as in the general case when the character button is combined with the combination induction button. That alone can generate a sufficient number of signals. When applied to a product, two or more combination-inducing buttons (or combination-inducing button-made buttons) that have different functions are used before or after the letter button, or one combination-inducing button is later than the letter button. It may also be possible to generate other signals when turned on (especially when combining buttons with unassigned buttons in the description below).

The biggest reason to maximize is the inconvenience of having to press the same button several times to select a specific character when more than 26 letters have to be assigned to a button, depending on the country, and more than 26 letters need to be assigned to a button. Even if the input method is improved, it is to solve the inconvenience.

This is because Russian has 33 characters, 30 Bulgarian, 46 Hindi, 50 Japanese, 44 Myanmar, 46 Hindi, 76 Thai (actually only 62). For example, to understand the table that follows, let's say you have a letter assigned to only nine buttons, like the English alphabet, and no letters assigned to '*, 0, #'.

At this time, danta writes the first letter assigned to each button, and '*' is used as a combination-induced button to write the second letter assigned to each button. '0' is the third letter assigned to each button (also can be triple-clicked. The words in parentheses are omitted below), and '#' is the combination induction that causes the fourth letter to be assigned to each button. I want to use buttons, and I'm going to make the buttons from 1 to 9 as combination induction buttons, but since the letters are already assigned, I have two or more combination induction buttons that have the same function, that is, to write the letters in a specific order assigned to the button. Each must be specified, so 9 to 1 to 9 divided by 2 is 4.5, cutting to 4. In this way, eight of the buttons 1 to 9 can be assigned two combination-inducing buttons to write the fifth, sixth, seventh, and eighth letters assigned to each button, leaving one extra. Then, eight letters can be assigned to one button. Since there are nine such buttons, a total of 72 letters can be assigned to buttons of 1 to 9 so that a single stroke or a combination of two buttons can be used. Previously, if you wanted to write the eighth letter, you had to press the same button eight times.

Let's take a more mathematical example.

'A' is called 'the number of assigned buttons' (the previous example is A = 9)

'B' is called 'the number of unassigned buttons' (the previous example is B = 3)

'D' is called 'the number of letters that can be assigned to one button'

D = B + cutting (A / 2) +1 (the previous example is D = 3 + cutting (9/2) + 1 = 8)

If you say "E" as "the total number of characters that can be assigned"

E = A * D (the previous example is E = 9 * 8 = 72)

The numbers of cases A, B, D, and E are shown below.

(When you use a button that does not have a letter assigned to it as a combination induction button, you can distinguish when the letter you want to use comes on before the assigned button and when it comes on later.

'D = 2B + cutting (A / 2) +1' will result in a larger number of 'D' or 'E'.)

In extreme cases, the 26 English alphabets may be ranked. Because 11 letters are assigned to each of the three buttons, the first letter assigned to the button is written as a single stroke, and the letter is not assigned to the combination induction button that causes the second to tenth letters to be written. This is because two buttons can be specified among the three buttons in which letters are assigned as a combination induction button for specifying nine buttons and writing the eleventh letter.

This is also an advantage over the T9. This is because, in the method of T9 or the like, as the number of spellings assigned to one button increases, the number of candidate words increases exponentially, making it impossible to use. Of course, the same is true for signals in other languages.

Hangul can be regarded as 33 letters, and the ranking 2 method can be applied extremely. Hangul 33 letters means 14 basic consonants (However, the number of Hangul is different depending on the classification type, such as 40 after adding additional number of extended vowels.)

The 62 letters of Thai can be expressed by applying the method of ranks 6 to 11 of the above table, because the 'E' value from ranks 6 to 11 is 62 or more. It means that 9 letters can be assigned to 7 buttons, and 63 letters can be used in combination with a single stroke or other combination induction button.The ranking 11 method is applied by assigning 7 letters to 12 buttons. 84 letters can be used in combination with a single stroke or other combination induction buttons. Of course, 5 or 6 letters can be assigned to 12 buttons for 62 characters in combination with a single stroke or other combination induction buttons.

Also, in case of English, you can apply the method from ranks 6 to 11 even if you want to assign 3 uppercase letters, 3 lowercase letters, and 1 number to one button without changing the mode. In total, the total number is 10 and 62 is the same as Thai. However, the recommended method is rank eight. This is because the general English keyboard can be realized by rank 8.

In conclusion, in the mobile phone, the method of the present invention is applied to the method of maximizing convenience and efficiency in the form of the use of letters, vowel consonants, the equal use of the right hand and the left hand. You will be able to configure

3.digital camera

Digital cameras usually have no function buttons, only function buttons.

Even if a function button is a button of the same position

Depending on what mode you are in, the function may be different (e.g. the right arrow button is a toggle button to indicate whether or not the flash will fire in the mode of taking a picture and the next picture in the mode of viewing the picture on the LCD screen). role)

If there is no operation related to the current mode, pressing the button does not work at all (e.g. the down button moves the cursor downward in the menu mode but does not respond at all in the photo view mode).

It does the same thing regardless of the current mode (e.g. the POWER button is a toggle button that turns the camera on or off regardless of the current mode).

The problem is that you can't specify a new task with a button and a combination of buttons, because the task is done immediately when each button is turned on.

If a function button is in addition to the original operation in addition to the original operation, and other buttons are turned on before turning off after the function button is turned on, as in the case of the present invention application example of the computer (Esc button and Home button), it is previously designated to perform another operation by the combination. If it is turned on, the other task is in the specified combination until the function button turns on and turns off. If the button is turned on, another operation is performed in that combination. If it does not turn on, you can try to perform the original function. By doing so, a button that used to function in one mode can do several things with a combination of buttons.

Finally, let's talk about some real-world examples of assigning letters to buttons in Korean and English.

First, let's look at the frequency ranking of the Korean and English alphabets.

(It's a little different depending on the data you're statistics about, but it's almost the same.)

The reason for recognizing the frequency ranking is to assign the higher frequency of use when assigning the letters to the prior ranking among the several letters to be assigned to each button, so that they can be effectively entered even in the multi-tap method. This is because the letters are input in a single stroke instead of a combination method and the second letters can be input in a button combination, so that the effects of the present invention can be further increased by using a single input.

1.Use frequency of Hangul (from using a lot to using a little)

Consonants (19): o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o, o

Short vowels (10): ㅣ, ㅏ, ㅓ, ㅡ, ㅗ, TT, ㅕ, ㅛ, ㅑ, ㅠ (But the order of vowels may not be important, because there are only 10 anyway, 10 buttons from 0 to 9 You just need to assign them one by one.)

Double vowels (11): ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅘ, ㅝ, ㅢ, ㅙ, ㅞ (Because they can be assigned in pairs similar to short vowels) I didn't list it.)

2.Order frequency of use of English alphabet (from using a lot to order using a little)

26: There are several statistics.

E, T, A, O, S, N, I, R, H, D, L, C, M, U, P, F, G, W, Y, B, V, K, X, J, Q, Z (applies to the example below)

E, T, A, O, I, N, S, R, H, L, D, U, F, M, W, Y, G, P, C, B, V, K, X, J, Q, Z

E, T, O, A, N, I, R, S, H, D, L, U, C, M, P, F, Y, W, G, B, V, K, J, X, Z, Q

Next, let's think about Hangul assignment.

Even if several letters are assigned to one button by the method of the present invention, it is possible to input in one beat with both hands by the combination of two buttons.

40 consonants (19 consonants, 10 short vowels, 11 double vowels) can be input to one beat (= 2 strokes by combination) even if four buttons are assigned to each button. In the vowel input method, the typos of the most severe vowel vowels (eg, try to input 'ㅞ' and then type 'ㅜ ㅣ ㅣ') will rarely occur.

You can also assign two more special characters to each button.

Now let's look at an example of how to enter 6 characters (4 Korean characters, 2 special characters) assigned to each button. (If the sum of the number of characters and special characters is 6 in any language, the same applies as follows.)

It is possible to input the first letter by a single stroke (in the input mode such as T9, when entering a letter after inputting it, the letter to be entered comes before the assigned button, that is, the first combination of the first letter of a button is entered. Set to Button 1 and Button 3 with the Induction Button.)

Set the buttons 4 and 6 as the preceding combination induction button that allows the second character to be entered.

Set the buttons 7 and 9 as the preceding combination induction button that allows the third letter to be entered.

Set the buttons * and button # as the precombination induction button that allows the fourth letter to be entered. (If the buttons * and button # are not assigned letters, do not mind button interference. It can also be set as a combination induction button with different functions),

Preset combination induction button for inputting the first special character, which is the fifth character, is set as button 2 and button 8 (or special characters have low utilization while writing characters, so you can leave one combination induction button if you do not consider finger interference. The trailing combination induction button can also be set as a button *, which is possible when no button is assigned a letter.)

Set the buttons 5 and 0 as the preceding combination induction button to input the second special character, which is the sixth character (or the special character has low utilization while writing the character, so if you do not consider finger interference, you can leave only one combination induction button. It is possible to set the button # as a trailing combination induction button, which is possible when no letter is assigned to the button #.)

And finally, a trailing combination induction button that allows you to enter a number assigned to a button. You can also set it as buttons * and button #. This is possible when no buttons or letters are assigned to buttons * and button #.

Of course from above

  Entering the first to sixth characters is based on the multi-tap method, that is, the number of consecutive presses.

  It is obvious that conventional methods such as pressing and holding numbers can also be performed in parallel.

  The button * and button # danta will perform other functions (prior functions: eg-changing the text mode, adding Hangul stroke order, etc.).

If you assign a letter to the * or # button,

In the conventional commercial methods, there is no combination button for inputting letters, so if you assign letters only to 10 buttons from 0 to 9, up to 10 letters can be input by single stroke, and * or # only by single stroke. It can be used as a special function key, such as changing the character mode, but if you use the combination buttons to assign the function to * or #, you can actively assign letters to 0 ~ 9 and * and # to assign up to 12 letters. It is possible to input by single stroke.

 Conventionally, * and #, which perform any function as a single button in the mode of writing as a function button, have a lower frequency of use than a character button when writing a letter. This is because it is more efficient to do it by combination button with * or # button or by pressing several times and to write letters first.

At this time, if you do not want to use a combination button that uses two hands when writing a letter, you can also use the multi-tap method with one hand. Since the letter is written first, it is more efficient to use the combination button. You can specify any letter button as a combination induction button so that you can function as a conventional * or # button with both hands. Assign a volume control button or internet connection button that does not respond as an additional combination induction button that has the same function, so that the combination control button such as volume control button or internet connection button is on or off, or after it is on and off. When the * or # button is on, the function of the conventional * or # button can be performed. It is also possible to perform the functions of the conventional * or # button when a combination induction button such as a volume control button or an internet connection button is turned on before or after the * or # button is turned off, or after being turned on and off. . Or you can just specify that the volume control button or Internet connection button behaves like a traditional * or # button.

For English, the number of alphabets is not many and the number of vowels is less than that of Korean. Considering the frequency of use of letters, it improves the convenience when inputting letters in the multi-tap method, and the letters assigned first by the method of the present invention. Since may be input as a single stroke instead of a combination method, consider the following.

1. Consider the frequency only, and assign the first, second, third letters to the button

2. Considering the frequency alone, it is greatly contrary to the button assignment format widely recognized in the telephones, and the user may be confused. Therefore, we will keep the assignment combination that is already commercialized as much as possible. It would be better for the user to notice what and what the alphabet assigned to the button would be by marking the color of the fastest letter in the memorization song among the letters assigned to the button. It is capitalized.)

3. When 'N', 'M' and 'O' are assigned to the same button at the same time, 'N' and 'O' are frequently used, so 'NM' and 'O' are also assigned separately. ('O' has a higher frequency than 'N' and 'N' has a higher frequency than 'M'.)

If 'P', 'Q', 'R' and 'S' are assigned to the same button at the same time, 'P' and 'S' should be assigned separately because 'R' and 'S' are very frequently used. (The frequency of use of 'R' is sometimes lower or higher than 'S', but higher than 'P' or 'Q'.)

4. I assigned letters to the * or # buttons as shown in Table 1-6 or Table 2-5.

The solution of the advantages of assigning letters to the * or # buttons and the inconveniences of the conventional ones are described in the example of Hangul, so the detailed description is omitted.

 Table 1-6 times are also preferable. This is because the first letter assigned to each button is the 11 most frequently used except for 'W'.

The reason that 'I' (child) is not capitalized even if it is assigned to the button first is that the uppercase 'I' (child) is confused with the lowercase 'l' (L). In fact, in other cases where only one letter is assigned to a button (D, I, O, S in Table 1-6), the user cannot confuse which letter is assigned to the button, whether it is uppercase or lowercase. Because there is only one.

5. And

The frequency rank of 'P, Q, R, S, T' may be 'T, S, R, P, Q', 'T, R, S, P, Q',

The frequency ranking of 'V, W, X, Y, Z' may be 'W, Y, V, X, Z,' or 'Y, W, V, X, Z'

In the table below

Assigned to 'Wyx' as 'yWx', or

assigned in order of 'srP' to 'rsP', or

assigned in the order of 'srPq' to 'rsPq', or

'YWxz' assigned to 'Wyxz'

You can change the assignment.

In other words, the letters of any country are listed in order of frequency.

Although a bit more inefficient than this improvement, the combination of letters assigned to the button by the manufacturer's idea should follow this improvement, and the order of the letters assigned to each button should be in alphabetical order (e.g. It seems better than the conventional button assignment.

** Comparative example of the conventional method of English assignment and the present invention

It should be understood that all examples to date are only examples, but not all of the methods according to the present invention, and various modifications, changes, and combinations are readily possible by those skilled in the art.

And all the methods presented in the present invention may be set to the device arbitrarily by the manufacturer, but the device may be manufactured to be arbitrarily set by the non-manufacturer based on their convenience.

During the filing of this application, the claims could not be collectively prepared for personal reasons.

1. Claims that are largely effective when applied to telephones

80,38,5,6,7,65,20,21,8,9,52,10,11,12,13,14,15,16,17,18,19,88,60,22,23, 2 4,94,83,84,25,26,27,28,29,30,31,61,62,63,64,53,75,76,77,78,89,90,91,79,85 , 86,87,54,55,56,57,58,59,74,51,1,2,3,4,40,41,42,43,48,49,50,67

2. Applicable mainly to electronic calculator

66

3.Mainly applied to computer keyboard, the effect is great

68,81,92,82,37,80,5

4.The effect is large when the toggle key is applied: 69,70,71,72,73,95

1 is a schematic button layout of an existing mobile phone,

2 and 3 is a combination table of a number of combinations that can be a first button to a fourth button according to the present invention,

4 and 5 are a combination table of several of the combinations that can be the first to sixth button according to the present invention,

6 and 7 are a combination table of several of the combinations that can be the first to eighth buttons according to the present invention,

8 is a layout view of a display unit and a button unit of a conventional calculator;

9 is a layout view of a representative display unit and a button unit of a calculator to which the method of the present invention is applied;

10 is a layout view of a schematic display unit and button portions of a conventional mobile phone,

11 is a layout view of a schematic display unit and button units of a mobile phone to which the method of the present invention is applied;

Figure 12 is a state diagram showing a conventional general keyboard.

1 is a schematic button layout of an existing mobile phone,

2 and 3 is a combination table of a number of combinations that can be a first button to a fourth button according to the present invention,

4 and 5 are a combination table of several of the combinations that can be the first to sixth button according to the present invention,

6 and 7 are a combination table of several of the combinations that can be the first to eighth buttons according to the present invention,

8 is a layout view of a display unit and a button unit of a conventional calculator;

9 is a layout view of a representative display unit and a button unit of a calculator to which the method of the present invention is applied;

10 is a layout view of a schematic display unit and button portions of a conventional mobile phone,

11 is a layout view of a schematic display unit and button units of a mobile phone to which the method of the present invention is applied;

Figure 12 is a state diagram showing a conventional general keyboard.

Figure 13 is a layout view to move the letter button portion to one of the preferred example of applying the present invention

Claims (203)

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

In the method of increasing the button operation efficiency of a device that presses a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, Perform a predetermined operation by a combination situation including a combination of two or more buttons that are ON at the same time, a sequence of combinations, or a pressing method, The target combination or combination situation is when the letter button for writing letters including letters, numbers, and symbols is used as the combination induction button when it is ON independently without the combination. How to increase button efficiency. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, Perform a predetermined operation by a combination situation including a combination of two or more buttons that are ON at the same time, a sequence of combinations, or a pressing method, Electro-electronics characterized in that two or more combination induction buttons for inducing the same designation operation to induce the same designation operation even if the combination induction button is replaced with other combination induction buttons for inducing the same designation operation How to increase button efficiency on your device. The method of claim 6, The operation induced by the combination induction button does not change depending on the spatial positional relationship with other buttons, and the button efficiency increasing method of the electric and electronic device, characterized in that it is always assigned the same regardless of the spatial positional relationship with other buttons. . The method according to claim 6 or 7, If there are two or more letter buttons assigned to one button in the same letter mode, When a button is turned on and another letter button is turned on later, the first button is used as the combination induction button so that letters of a predetermined order are written among letters assigned to other letter buttons input later. How to increase button efficiency of electric and electronic equipment. The method according to claim 6 or 7, If there are two or more letter buttons assigned to one button in the same letter mode, When the other button is turned on later in the state that the letter button is turned on, the electronic buttons, characterized in that the other buttons used later to use the combination induction button so that the letters of the predetermined order is written among the letters assigned to the first letter button on How to increase button efficiency. In a method of increasing the button operating efficiency of a device that has two or more letters assigned to one button, the button performing the operation by pressing the button, If a letter button is on while another letter button is on, Either the first letter button is written the second letter assigned to the later letter button, or the second letter button is later assigned to the first letter button. Specifies that any first button and second button as a combination induction button that causes letters to be written, Among the buttons except for the first button and the second button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. A method of increasing button efficiency of an electric and electronic device, characterized in that an arbitrary third button and a fourth button as a combination induction button for writing a third letter assigned to an ON button are written. The method of claim 10, The first button to the fourth button is a button efficiency increase method of the electrical and electronic device, characterized in that it comprises the number of cases assigned as shown in the table below.

The method of claim 10, Among the buttons except for the first button to the fourth button, the first letter button is turned on and the fourth letter assigned to the letter button is turned on later, or the letter button turned on first is first. A method of increasing the button efficiency of an electric and electronic device, characterized in that the fifth button and the sixth button as a combination inducing button for writing the fourth letter assigned to the ON button are written. The method of claim 12, The first button to the sixth button is a button efficiency increase method of the electric and electronic device, characterized in that it comprises the number of cases assigned as shown in the table below.

In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, If a letter button is on while another letter button is on, A first letter button assigned to the first ON button is written in the same way as in 108, or later ON in the same way as in 109. Specifies that a first button and a second button as a combination inducing button for writing the first letter assigned to the letter button in which the letter button is first turned on are included. Among the buttons except for the first button and the second button, the first letter button is turned on and the second letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specifies to include an arbitrary third button and a fourth button as a combination induction button that causes the second letter assigned to the ON button to be written. Among the buttons except for the first button to the fourth button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. And a fifth button and a sixth button as combination inducing buttons for writing the third letter assigned to the letter button turned on. The method of claim 14, The first button to the sixth button is a method of increasing the button efficiency of the electric and electronic device, characterized in that it includes the number of cases assigned as shown in the table of claim 13 . In a method of increasing the button operating efficiency of a device that has two or more letters assigned to one button, the button performing the operation by pressing the button, If a letter button is on while another letter button is on, Either the first letter button is written with the first letter assigned to the later letter button, or the later letter button is assigned with the first letter button assigned to the first letter button. Specifies that any first button and second button as a combination induction button that causes letters to be written, Among the buttons except for the first button and the second button, the first letter button is turned on and the second letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specifies to include an arbitrary third button and a fourth button as a combination induction button that causes the second letter assigned to the ON button to be written. Among the buttons except for the first button to the fourth button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. Specify to include arbitrary fifth and sixth buttons as a combination induction button that causes the third letter assigned to the ON button to be written. Among the buttons except for the first button to the sixth button, the first letter button is turned on and the fourth letter assigned to the letter button is turned on later, or the letter button is turned on first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary seventh and eighth buttons as a combination induction button for writing a fourth letter assigned to an ON button are written. The method of claim 16, The first button to the eighth button comprises a number of cases assigned as shown in the table below.

The method of claim 16, Among the buttons except for the first button to the eighth button, the first letter button is turned on and the fifth letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specify to include an arbitrary ninth button and a tenth button as a combination induction button that causes the fifth letter assigned to the ON button to be written. Among the buttons except for the first button to the tenth button, the first letter button is turned on and the sixth letter assigned to the letter button is turned on later, or the letter button turned on first is first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary eleventh button and a twelfth button as a combination inducing button for writing a sixth letter assigned to an ON button are written. In a method of increasing the button operating efficiency of a device that has two or more letters assigned to one button, the button performing the operation by pressing the button, Specify button 1 as the leading or trailing combination induction button that causes the first letter to be assigned to each letter button. Specify button 2 as the leading or trailing combination induction button that causes the second letter to be assigned to each letter button. Specify button 3 with the leading or trailing combination induction button that causes the third letter assigned to each letter button to be written, or Specify button 4 with the leading or trailing combination induction button that causes the fourth letter to be assigned to each letter button. Specify button 5 with the leading or trailing combination induction button that causes the fifth letter to be assigned to each letter button. Specify button 6 with the leading or trailing combination induction button that causes the sixth letter assigned to each letter button to be written, or Specify button 7 with the leading or trailing combination induction button that causes the seventh letter assigned to each letter button to be written, or Specify button 8 as the leading or trailing combination induction button that causes the eighth letter assigned to each letter button to be written, or Specify button 9 as the leading or trailing combination induction button that causes the 9th letter assigned to each letter button to be written, or The method of increasing the button efficiency of an electric and electronic device comprising any one of designating a button 0 as a leading or trailing combination inducing button for writing the tenth letter assigned to each letter button. In a method of increasing the button operating efficiency of a device that has two or more letters assigned to one button, the button performing the operation by pressing the button, If a letter button is on while another letter button is on, Either the first letter button is written in the specified sequence number assigned to the later letter button, or the later letter button is assigned to the first letter button assigned. In designating a combination induction button that causes a sequence of letters to be written, A method of increasing the button efficiency of an electric and electronic device, characterized in that two or more combination induction buttons for writing letters of the same designation order are designated. The method of claim 20, The order of designation of letters written by the combination induction button does not change depending on the spatial positional relationship with other buttons to be combined, and is always the same regardless of the spatial positional relationship with other buttons,  Among two or more combination induction buttons that cause letters of the same designation sequence to be written,  The two or more relationships are characterized in that the other combination induction button except for the self acts as a combination button, the combination of the buttons assigned to the letter of the specified order among the letters assigned to the character buttons to interact with each other, characterized in that the interaction How to increase button efficiency of electric and electronic equipment. In the character data search method using a DB including "T9", When the letters are input, a search word is input by a combination of zero or more definite letters, candidate letters, or unknown letters, respectively, to display related candidate words, and the user selects a desired word among the displayed candidate words. How to increase button efficiency on your device. In the character input method using a DB including "T9", When a letter is input, a search word is input to display related candidate words, and a user selects and inputs a desired word from among the displayed candidate words. When the letters are input, the device configures a signal system that allows the device to know whether the spelling number of the search word entered is the total spelling of the desired word or the spelling number that is insufficient. Method for increasing button efficiency of electrical and electronic equipment. In the character input method using a DB including "T9", When a letter is input, a search word is entered as a combination of a definite letter, a candidate letter, or an unknown letter to display related candidate words, and a user selects and inputs a desired word from among the displayed candidate words. The input of the definite letters is input by a combination button, the input of the candidate letters is input by turning on or off by a single stroke, or the input of the unknown letters by inputting a separate signal including a randomly selected character. How to increase button efficiency of electric and electronic equipment In a method of increasing the button operating efficiency of a device that has two or more letters assigned to one button, the button performing the operation by pressing the button, In the text input method such as "T9", If a letter button is on while another letter button is on, Either the first letter button is written with the first letter assigned to the later letter button, or the later letter button is assigned with the first letter button assigned to the first letter button. Specifies that any first button and second button as a combination induction button that causes letters to be written, Among the buttons except for the first button and the second button, the first letter button is turned on and the second letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specifies to include an arbitrary third button and a fourth button as a combination induction button that causes the second letter assigned to the ON button to be written. Among the buttons except for the first button to the fourth button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. And a fifth button and a sixth button as combination inducing buttons for writing the third letter assigned to the letter button turned on. The method of claim 25, The first button to the sixth button is a button efficiency increasing method of the electric and electronic device, characterized in that it comprises the number of cases assigned as shown in the table of claim 13. The method of claim 25, Among the buttons except for the first button to the sixth button, the first letter button is turned on and the fourth letter assigned to the letter button is turned on later, or the letter button is turned on first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary seventh and eighth buttons as a combination induction button for writing a fourth letter assigned to an ON button are written. The method of claim 27, The first button to the eighth button is a button efficiency increasing method of the electric and electronic device, characterized in that it includes the number of cases assigned as shown in the table of claim 17. The method of claim 27, Among the buttons except for the first button to the eighth button, the first letter button is turned on and the fifth letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specify to include an arbitrary ninth button and a tenth button as a combination induction button that causes the fifth letter assigned to the ON button to be written. Among the buttons except for the first button to the tenth button, the first letter button is turned on and the sixth letter assigned to the letter button is turned on later, or the letter button turned on first is first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary eleventh button and a twelfth button as a combination inducing button for writing a sixth letter assigned to an ON button are written. In character input method of "T9" A method for increasing button efficiency of an electric and electronic device, comprising applying the method of any one of claims 16, 17, 18, 19, 20, or 21. The method according to any one of claims 23, 24, 25, 26, 27, 28, or 29, Character input is a method of increasing the button efficiency of the electric and electronic device, characterized in that implemented without changing the character input mode. In a method of increasing the button operating efficiency of a device that has two or more letters assigned to one button, the button performing the operation by pressing the button, A button of an electric and electronic device comprising a number of all cases in which all Korean consonants including basic consonants and double consonants below 1,2,3,4 and Korean consonants including basic vowels and double vowels are assigned as complete forms. How to increase efficiency. 1. 14 basic consonants: a, b, c, d, l, w, m, o, h, h, h, h, h, h 2.5 consonants: ㄲ, ㄸ, ㅃ, ㅆ, ㅉ 3. 10 basic collections: ㅏ, ㅏ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ 4.11 vowels: ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅘ, ㅙ, ㅟ, ㅝ, ㅞ, ㅢ  In a device having a few letter buttons 0 ~ 9, *, # usually including a mobile phone and a landline phone, In the device for inputting the Hangul vowel with the button by the "Cheonjiin" method, By assigning one or more of the "Additional Collections" below to the button as complete, In the "Cheonjiin" text input mode, the addition without changing the text input mode, Method of increasing the button efficiency of the electric and electronic device, characterized in that the input by selecting the input method by the conventional "Cheonjiin" method or the input method to the completed type. Additional assignments: ㅏ, ㅑ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅟ, ㅘ, ㅝ, ㅢ, ㅙ, ㅞ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the method of inputting a character whose only phoneme is input in the complete form is "ㄱ, ㄴ, ㄹ, ㅁ, ㅅ, ㅇ, ㅏ, ㅓ, ㅗ, TT, ㅡ, ㅣ", By assigning one or more of the "phones to be assigned" below to the button in addition, In the conventional text input mode, the added text without changing the text input mode, Method of increasing the button efficiency of the electric and electronic device, characterized in that the input by the conventional method or the input method to complete the input. Additional phonemes to assign: ㄲ, ㄸ, ㄸ, ㅂ ,,, ㅆ, ㅈ, ㅉ,, ㅋ, ㅌ, ㅎ, ㅑ, ㅕ, ㅠ, ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅟ, ㅘ, ㅝ, ㅢ, ㅙ, ㅞ In a device having a few letter buttons 0 ~ 9, *, # usually including a mobile phone and a landline phone, In the character input method of which the Korean vowel input in the complete form is "ㅏ, ㅑ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ", By assigning one or more of the "Additional collections" below to the button, In the conventional text input mode, the added text without changing the text input mode, Method of increasing the button efficiency of the electric and electronic device, characterized in that the input by the conventional method or the input method to complete the input. Additional assignments::, ㅒ, ㅔ, ㅖ, ㅚ, ㅟ, ㅘ, ㅝ, ㅢ, ㅙ, ㅞ In a device having a few letter buttons 0 ~ 9, *, # usually including a mobile phone and a landline phone, In the vowel input method in which the Korean vowel input in the complete form is "ㅏ, ㅓ, ㅗ, TT, ㅡ, ㅣ", By assigning one or more of the "Additional collections" below to the button, In the conventional text input mode, the added text without changing the text input mode, Method of increasing the button efficiency of the electric and electronic device, characterized in that the input by the conventional method or the input method to complete the input. Additional assignments: ㅑ, ㅕ, ㅛ, ㅠ, ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅟ, ㅘ, ㅝ, ㅢ, ㅙ, ㅞ Including computer keyboards or keypads on some mobile devices On keyboard Except for conventional combination induction buttons, including Shift, Ctrl, or Alt buttons If one button is on and another button is on before it is off Either button Method for increasing the button efficiency of the electric and electronic device, characterized in that to replace the function of the conventional combination dedicated dedicated button including the Shift, Ctrl, or Alt button. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, Perform a predetermined operation by a combination situation including a combination of two or more buttons that are ON at the same time, a sequence of combinations, or a pressing method, In letter-writing mode including volume control button or internet connection button to enable with one hand, when the button that does not respond to on is designated as the preceding or following combination induction button, the combination induction button and the relative partner button come on at the same time. A method for increasing button efficiency of an electric and electronic device, characterized in that a predetermined operation is performed as a combination button operation even if it is regarded as a combination between buttons even if there is no state. In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, Hangul vowel input in complete form is "ㅏ, ㅑ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ, ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅟ, ㅘ, ㅝ, ㅖ" To By assigning one or more of the "Additional collections" below to the button, In the conventional text input mode, the added text without changing the text input mode, Method of increasing the button efficiency of the electric and electronic device, characterized in that the input by the conventional method or the input method to complete the input. Additional Assignments: ㅙ, ㅞ In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

The method of increasing the button efficiency of an electric and electronic device, characterized in that the vowel is additionally assigned to the "Cheonjiin" method, which is a Korean input method, and the vowels additionally assigned are 1, 2 or 3 below. 1.Three inputs should be entered in the heaven and earth input method (8): ㅑ ㅕ ㅛ ㅠ ㅚ ㅟ ㅐ ㅔ 2. In the input method of heaven and earth to input four (4): ㅘ ㅝ ㅒ ㅖ 3. Thing which should be input with 5 strokes in the heaven and earth input method (2): ㅞ ㅙ The method of increasing button efficiency of an electric and electronic device, characterized in that the vowel is additionally assigned to the cheonjiin method, which is a Korean input method, and the vowels additionally assigned are 1 or 2 below. 1.Three inputs (4) must be entered in the heaven and earth input method: ㅘ ㅝ ㅒ ㅖ 2. Thousands of inputs (2) must be entered in the heaven and earth input method: ㅞ ㅙ 46. The method of any one of claims 44 or 45. The method of increasing the button efficiency of an electric and electronic device, characterized in that the allocation of the Hangul vowels is the number of all cases including the following methods.

. In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, How to increase the button efficiency of the electric and electronic device, characterized in that the letter buttons are assigned in the order shown in the following table irrespective of the uppercase and lowercase letters.

49. The method according to any one of claims 1, 2, 3, 4, 40, 41, 42, 43 or 48, Assigned to 'Wyx' as 'yWx', or assigned in order of 'srP' to 'rsP', or assigned in the order of 'srPq' to 'rsPq', or Method for increasing button efficiency of an electric and electronic device, characterized in that the order assigned to the 'Wyxz' is changed to 'yWxz'. The method according to any one of claims 1, 2, 3, 4, 40, 41, 42, 43, or 48, The alphabetical order of the letters assigned to any one button of each letter button is the method of increasing the button efficiency of the electric and electronic device, characterized in that the assignment in alphabetical order. When displaying the letters assigned to one of each letter button on the button, prominently indicate the capitalization or coloration of the earliest or latest letters in the standard enumeration order of the entire alphabet of the letter system. How to increase the button efficiency of the electric and electronic device, characterized in that it is easy to recognize what the letters assigned to each button as a measure. In a method of increasing the button operating efficiency of a device that has two or more letters assigned to one button, the button performing the operation by pressing the button, When a button with no letter is assigned as a combination induction button that allows a specific sequence of letters to be assigned to a button, the letter assigned to the character button when the combination induction button precedes or follows the character button is written. Method of increasing button efficiency of an electric and electronic device, characterized in that the specific order of the letters are different. The method of any one of claims 23, 24, 25, 26, 27, 28 or 29. Method for increasing button efficiency of an electric and electronic device, characterized by searching for data in which two or more words exist and extending to selecting or selecting desired input The method of claim 30, Change the function that allows the first letter to be written to the first job function that can be specified arbitrarily, Change the function that allows the second letter to be written into a second job function that can be arbitrarily assigned, Change the function that allows the third letter to be written to a third job function that can be specified arbitrarily, Change the function that allows the fourth letter to be written to the fourth job function that can be arbitrarily assigned. Change the function that allows the fifth letter to be written to the fifth job function that can be arbitrarily assigned. A method for increasing button efficiency of an electric and electronic device, characterized in that the function for allowing the sixth letter to be written is changed to a sixth work function that can be arbitrarily designated, and the function can be designated by changing the function according to a situation. The method of claim 30 "Few" in the phrase "the few letters" assigned to the letter button changes depending on the situation, and the number of button presses corresponding to the letter when the letters assigned to the letter button are printed or entered in the multi-tap method. Or, the number is a method of increasing the button efficiency of the electric and electronic device, characterized in that the random number rather than a continuous ascending order. The method of claim 30, A method of increasing the button efficiency of an electric and electronic device, characterized by inputting upper or lower case letters without changing the mode by designating various combination induction buttons in English. The method of claim 30, The method of increasing the button efficiency of an electric and electronic device, characterized in that a combination is recognized even if the interval between the time when the first button is turned off and the time when the button is turned on is within a predetermined time interval. In a device for inputting characters including keyboards of computer keyboards, mobile phones, PDAs, and landline telephones, only one English alphabet is assigned to each button including QWERTY keyboard, and Korean phonemes are assigned. In the character input method in which the Korean vowel input in the complete form is "ㅏ, ㅑ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ, ㅐ, ㅒ, ㅔ, ㅖ", By assigning one or more of the "Additional collections" below to the button, In the conventional text input mode, the added text without changing the text input mode, Method of increasing the button efficiency of the electric and electronic device, characterized in that the input by the conventional method or the input method to complete the input. Additional assignments: ㅚ, ㅟ, ㅘ, ㅝ, ㅢ, ㅙ, ㅞ In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, Method of increasing the button efficiency of the electric and electronic device, characterized in that the letters corresponding to the order of the number assigned to the combination induction button of the letters assigned to the combination relative button. In character input method using DB including "T9" Any part of the word you want Any number A button of an electric and electronic device, characterized in that one separator divides one or more consecutive letters into unknown letters, inputs a search word, displays candidate data including a desired word, and selects and inputs a desired word. How to increase efficiency. The method according to any one of claims 10, 12, 16, 18, 25, 27, or 29, Change the function that allows the first letter to be written to the first job function that can be specified arbitrarily, Change the function that allows the second letter to be written into a second job function that can be arbitrarily assigned, Change the function that allows the third letter to be written to a third job function that can be specified arbitrarily, Change the function that allows the fourth letter to be written to the fourth job function that can be arbitrarily assigned. Change the function that allows the fifth letter to be written to the fifth job function that can be arbitrarily assigned. A method for increasing button efficiency of an electric and electronic device, characterized in that the function for allowing the sixth letter to be written is changed to a sixth work function that can be arbitrarily designated, and the function can be designated by changing the function according to a situation. The method according to any one of claims 10, 12, 16, 18, 25, 27, or 29. "Few" in the phrase "the few letters" assigned to the letter button changes depending on the situation, and the number of button presses corresponding to the letter when the letters assigned to the letter button are printed or entered in the multi-tap method. Or, the number is a method of increasing the button efficiency of the electric and electronic device, characterized in that the random number rather than a continuous ascending order. Claims 5, 6, 7, 10, 11, 12, 13, 16, 17, 18, 19, 20, 21 The method according to any one of claims, 25, 27 or 29, A method of increasing the button efficiency of an electric and electronic device, characterized by inputting upper or lower case letters without changing the mode by designating various combination induction buttons in English. Claims 5, 6, 7, 10, 11, 12, 13, 16, 17, 18, 19, 20, or The method of claim 21, A method of increasing button efficiency of an electric and electronic device, characterized in that a character is input in parallel with another input method including a multi-tap input method without changing the character input method mode. Claims 5, 6, 7, 10, 11, 12, 13, 16, 17, 18, 19, 20, 21 The method according to any one of claims 25, 26, 27, 28, or 29, The method of increasing the button efficiency of an electric and electronic device, characterized in that a combination is recognized even if the interval between the time when the first button is turned off and the time when the button is turned on is within a predetermined time interval. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, In the arrangement of the button portion and the display portion of the calculator, the method of increasing the button efficiency of the electric and electronic device, characterized in that the display portion above, the number button-arithmetic symbol button portion in the middle, the other button portion below. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, In the arrangement of the display portion and the button portion of the phone, the method of increasing the button efficiency of the electric and electronic device, characterized in that disposed above the display portion, in the middle of the letter button portion, the function button portion below. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, The method of increasing the button efficiency of an electric and electronic device, wherein the combination inducing button of the left combination inducing button or the right combination inducing button is disposed above the keyboard when the combination induction button of the keyboard is positioned. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided on the keyboard, a method for increasing button efficiency of an electric and electronic device, characterized by assigning different keys for each mode to give a change signal for each mode. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        To change the modes corresponding to one toggle key included in the keyboard, leave the toggle key as it is and assign different pressing methods including single shot, double click, triple click, and long hit to give the change signal of each mode. Method for increasing the button efficiency of an electric and electronic device, characterized in that. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, In the operation of changing the modes corresponding to one toggle key included in the keyboard, a different body motion is assigned to each mode to give a change signal for each mode so that the device that senses the motion can recognize the motion. Method for increasing button efficiency of electric and electronic equipment . In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided in the keyboard, different voice commands are assigned to each mode recognizable by the voice recognition apparatus to give a change signal of each mode. How to increase button efficiency. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided in the keyboard, a method of increasing the button efficiency of the electric and electronic device, characterized in that for assigning a mode change signal according to the combination of the toggle key and the other key. In assigning a character group for each button to a device that has two or more character buttons assigned to one button, and in determining the order of assigning element letters constituting the character group to each button, List all letters of the letter system in standard enumeration order, then divide them into any number (s) that may vary in number to create letter groups, The assignment of the created character groups to each button is assigned by the assignor. To any one button The method of increasing the button efficiency of an electric and electronic device, characterized in that the order of element letters constituting any one letter group is in order of use frequency. In the character input method using a DB including "T9", If you enter a word or phrase consisting of unique characters that contain more than one syllable, each letter containing a kanji character has the same type of alphabet as the alphabet that is pinyinized as a phonetic character. The method of increasing the button efficiency of an electric and electronic device, characterized in that the selected word or phrase is selected and inputted by inputting the configured search word so that the candidate word (s) or phrase (s) composed of unique characters are displayed. 76. The method of claim 75 A method for increasing button efficiency of an electric and electronic device, characterized by inputting an alphabetic search term by dividing the alphabetic search term into a unit of each unique character. 76. The method of claim 75 The method of increasing the button efficiency of an electric and electronic device, characterized in that the search term is formed without a separator when only one alphabet is selected from alphabet (s) forming a pinyin of any one unique character. 78. The method of any one of claims 75, 76 or 77. The number of alphabetic spellings in any delimiter unit in the query Appropriate candidate word (s) or phrases by constructing a signaling system that allows the device to know whether the number is equal to or less than the alphabet spelling by the pinyin of the unique character of the word or phrase in the DB. Method of increasing the button efficiency of the electric and electronic device, characterized in that the (s) is to be displayed so that the desired word or phrase can be selected and entered. The method of claim 49, The alphabetical order of the letters assigned to any one button of each letter button is the method of increasing the button efficiency of the electric and electronic device, characterized in that the assignment in alphabetical order. The method of claim 30 A method of increasing button efficiency of an electric and electronic device, characterized by extending data from searching for data in which two or more words exist and selecting or selecting desired items. In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In designating the 0, *, # buttons as combination induction buttons that write a certain sequence of letters among the letters assigned to other buttons, Method for increasing button efficiency of an electric and electronic device, characterized in that the specific sequence of 0, *, # buttons are specified differently. In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the text input mode where you can enter general characters that express the language, so that you can enter special characters without changing the text input mode. A method of increasing button efficiency of an electric and electronic device, characterized in that special characters are assigned to five or more buttons in a character input method mode in which a general character representing a language can be input. In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the text input mode where you can enter general characters that express the language, so that you can enter special characters without changing the text input mode. A method of increasing button efficiency of an electric and electronic device, comprising assigning special characters to at least nine buttons in a character input method mode in which a general character representing a language can be input. The method of claim 23, wherein A method of increasing the button efficiency of an electric and electronic device, characterized in that only the data having a spelling that matches the spelling number of the search word is searched using a signal including a separator that the spelling number of the search word matches the spelling number of the data to be searched. The method of claim 78, The number of alphabetic spellings in any delimiter unit in the query Use the signal containing the delimiter to match the spelling of the alphabet by the pinyin of the unique character of the word or phrase you want to find in the DB so that only the data with the spelling that matches the number of spellings in the delimiter unit of the query is searched. Method for increasing the button efficiency of an electric and electronic device, characterized in that. In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the designation of three or more buttons without letters assigned as a combination induction button for writing a specific sequence of letters among letters assigned to other buttons, The method of increasing the button efficiency of an electric and electronic device, characterized in that each of the specified sequence of three or more buttons that do not have a letter assigned to each other. The method of claim 33 wherein In the "" Chinese "text input mode, add the text without changing the text input mode. It is characterized by changing the added to, without changing the text input mode by creating a new text input mode that allows you to select the input method and the input method in the completed form by the conventional "Cheonjiin" method. Method for increasing button efficiency of electrical and electronic equipment. 59. The method of claim 34, 35, 36, 39, or 58. In the conventional text input mode, the text is added without changing the text input mode. Electrical & electronics characterized in that by creating a new text input mode that allows to select the input method by the conventional method and the input method in the completed form, and to change the addition, without changing the text input method mode. How to increase button efficiency on your device. 33. The method of claim 32, Method for increasing the button efficiency of the electric and electronic device, characterized in that the number of all cases in which all the consonants and vowels of the Hangul Hangul are assigned to the complete type in 10 buttons of 0 button to 9 button. 91. The method of claim 89 wherein Five buttons out of 10 buttons of 0 to 9 buttons are assigned with only 19 consonants and 1 vowel, and the number of all cases where 20 vowels are assigned to the remaining 5 buttons. How to increase efficiency. 33. The method of claim 32, 12. The method of increasing the button efficiency of an electric and electronic device, comprising the number of all cases in which all of the consonants and vowels of the Korean alphabet are assigned to the 12 buttons from 0 to 9 buttons and * and # buttons. 92. The method of claim 91 wherein Six of the 12 buttons from 0 to 9 buttons and * and # buttons are assigned with 19 consonants in total, and the remaining 6 buttons include the number of all cases where 21 vowels are assigned. How to increase button efficiency of electronic devices. . . . . . . . . In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

In the method of increasing the button operation efficiency of a device that presses a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, Perform a predetermined operation by a combination situation including a combination of two or more buttons that are ON at the same time, a sequence of combinations, or a pressing method, The target combination or combination situation is when the letter button for writing letters including letters, numbers, and symbols is used as the combination induction button when it is ON independently without the combination. How to increase button efficiency. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, Perform a predetermined operation by a combination situation including a combination of two or more buttons that are ON at the same time, a sequence of combinations, or a pressing method, Electro-electronics characterized in that two or more combination induction buttons for inducing the same designation operation to induce the same designation operation even if the combination induction button is replaced with other combination induction buttons for inducing the same designation operation How to increase button efficiency on your device. 107. The method of claim 106, The operation induced by the combination induction button does not change depending on the spatial positional relationship with other buttons, and the button efficiency increasing method of the electric and electronic device, characterized in that it is always assigned the same regardless of the spatial positional relationship with other buttons. . 107. The method of claim 106 or 107. If there are two or more character buttons assigned to one button in the same character input mode, When a button is turned on and another letter button is turned on later, the first button is used as the combination induction button so that letters of a predetermined order are written among letters assigned to other letter buttons input later. How to increase button efficiency of electric and electronic equipment. 107. The method of claim 106 or 107, If there are two or more letter buttons assigned to one button in the same letter mode, When the other button is turned on later in the state that the letter button is turned on, the electronic buttons, characterized in that the other buttons used later to use the combination induction button so that the letters of the predetermined order is written among the letters assigned to the first letter button on How to increase button efficiency. In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, If a letter button is on while another letter button is on, A second letter assigned to a letter button which is turned on later in the same way as in paragraph 108 is written, or later turned on in the same manner as in section 109. Specifies that a first button and a second button are included as a combination induction button that causes the second letter assigned to the first letter button to be written. Among the buttons except for the first button and the second button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. A method of increasing the button efficiency of an electric and electronic device, characterized in that the third button and the fourth button as a combination inducing button for writing the third letter assigned to the ON button are written. 112. The method of claim 110, The first button to the fourth button is a button efficiency increase method of the electrical and electronic device, characterized in that it comprises the number of cases assigned as shown in the table below.

112. The method of claim 110, Among the buttons except for the first button to the fourth button, the first letter button is turned on and the fourth letter assigned to the letter button is turned on later, or the letter button turned on first is first. A method of increasing the button efficiency of an electric and electronic device, characterized in that the fifth button and the sixth button as a combination inducing button for writing the fourth letter assigned to the ON button are written. 112. The method of claim 112, The first button to the sixth button is a button efficiency increase method of the electric and electronic device, characterized in that it comprises the number of cases assigned as shown in the table below.

In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, If a letter button is on while another letter button is on, A first letter button assigned to the first ON button is written in the same way as in 108, or later ON in the same way as in 109. Specifies that a first button and a second button as a combination inducing button for writing the first letter assigned to the letter button in which the letter button is first turned on are included. Among the buttons except for the first button and the second button, the first letter button is turned on and the second letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specifies to include an arbitrary third button and a fourth button as a combination induction button that causes the second letter assigned to the ON button to be written. Among the buttons except for the first button to the fourth button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. And a fifth button and a sixth button as combination inducing buttons for writing the third letter assigned to the letter button turned on. 119. The method of claim 114, The first button to the sixth button is a method of increasing the button efficiency of the electric and electronic device, characterized in that it includes the number of cases assigned as shown in the table of claim 113. In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, If a letter button is on while another letter button is on, A first letter button assigned to the first ON button is written in the same way as in 108, or later ON in the same way as in 109. Specifies that a first button and a second button as a combination inducing button for writing the first letter assigned to the letter button in which the letter button is first turned on are included. Among the buttons except for the first button and the second button, the first letter button is turned on and the second letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specifies to include an arbitrary third button and a fourth button as a combination induction button that causes the second letter assigned to the ON button to be written. Among the buttons except for the first button to the fourth button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. Specify to include arbitrary fifth and sixth buttons as a combination induction button that causes the third letter assigned to the ON button to be written. Among the buttons except for the first button to the sixth button, the first letter button is turned on and the fourth letter assigned to the letter button is turned on later, or the first letter button is turned on first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary seventh and eighth buttons as a combination induction button for writing a fourth letter assigned to an ON button are written. 116. The method of claim 116 wherein The first button to the eighth button comprises a number of cases assigned as shown in the table below.

116. The method of claim 116 wherein Among the buttons except for the first button to the eighth button, the first letter button is turned on and the fifth letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specify to include an arbitrary ninth button and a tenth button as a combination induction button that causes the fifth letter assigned to the ON button to be written. Among the buttons except for the first button to the tenth button, the first letter button is turned on and the sixth letter assigned to the letter button is turned on later, or the letter button turned on first is first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary eleventh button and a twelfth button as a combination inducing button for writing a sixth letter assigned to an ON button are written. In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, Specify button 1 as the leading or trailing combination induction button that causes the first letter to be assigned to each letter button. Specify button 2 as the leading or trailing combination induction button that causes the second letter to be assigned to each letter button. Specify button 3 with the leading or trailing combination induction button that causes the third letter assigned to each letter button to be written, or Specify button 4 with the leading or trailing combination induction button that causes the fourth letter to be assigned to each letter button. Specify button 5 with the leading or trailing combination induction button that causes the fifth letter to be assigned to each letter button. Specify button 6 with the leading or trailing combination induction button that causes the sixth letter assigned to each letter button to be written, or Specify button 7 with the leading or trailing combination induction button that causes the seventh letter assigned to each letter button to be written, or Specify button 8 as the leading or trailing combination induction button that causes the eighth letter assigned to each letter button to be written, or Specify button 9 as the leading or trailing combination induction button that causes the 9th letter assigned to each letter button to be written, or The method of increasing the button efficiency of an electric and electronic device comprising any one of designating a button 0 as a leading or trailing combination inducing button for writing the tenth letter assigned to each letter button. In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, If a letter button is on while another letter button is on, A character button that has been turned ON first in the same way as in section 108 causes the specified sequence of letters assigned to the character button that is later turned on, or later turned on in the same way as in section 109. In designating a combination induction button that causes a specified letter number to be written to a letter button whose first letter button is first turned on, A method of increasing the button efficiency of an electric and electronic device, characterized in that two or more combination induction buttons for writing letters of the same designation order are designated. 121. The method of claim 120, The operation induced by the combination induction button does not change depending on the spatial positional relationship with other buttons, and the button efficiency increasing method of the electric and electronic device, characterized in that it is always assigned the same regardless of the spatial positional relationship with other buttons. . In the character data search method using a DB including "T9", When the letters are input, a search word is input by a combination of zero or more definite letters, candidate letters, or unknown letters, respectively, to display related candidate words, and the user selects a desired word among the displayed candidate words. How to increase button efficiency on your device. In the character data search method using a DB including "T9", When a letter is entered, a search word is input to display related candidate words, and the user selects a desired word from among the displayed candidate words. An electric and electronic device comprising a signal system that allows the device to know whether the spelling number of the search word is equal to or less than the total spelling number of the word to be searched for, so that the device can display the appropriate candidate words. How to increase button efficiency. In the character data search method using a DB including "T9", A search word is input by a combination of zero or more confirmed letters, candidate letters, or unknown letters, respectively, to display related candidate words, and the user selects a desired word from among the displayed candidate words. The input of the definite letters is input by a combination button, the input of the candidate letters is input by turning on or off by a single stroke, or the input of the unknown letters by inputting a separate signal including a randomly selected character. How to increase button efficiency of electric and electronic equipment In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, In the character data search method using a DB including "T9", when entering a search word, If a letter button is on while another letter button is on, A first letter button assigned to the first ON button is written in the same way as in 108, or later ON in the same way as in 109. Specifies that a first button and a second button as a combination inducing button for writing the first letter assigned to the letter button in which the letter button is first turned on are included. Among the buttons except for the first button and the second button, the first letter button is turned on and the second letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specifies to include an arbitrary third button and a fourth button as a combination induction button that causes the second letter assigned to the ON button to be written. Among the buttons except for the first button to the fourth button, the first letter button is turned on and the third letter assigned to the letter button is turned on later, or the first letter button is turned on first. And a fifth button and a sixth button as combination inducing buttons for writing the third letter assigned to the letter button turned on. 126. The method of claim 125, The first button to the sixth button is a button efficiency increase method of the electrical and electronic device, characterized in that it comprises the number of cases assigned as shown in the table of claim 113. 126. The method of claim 125, Among the buttons except for the first button to the sixth button, the first letter button is turned on and the fourth letter assigned to the letter button is turned on later, or the letter button is turned on first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary seventh and eighth buttons as a combination induction button for writing a fourth letter assigned to an ON button are written. 127. The method of claim 127 wherein The first button to the eighth button comprises a number of cases assigned as shown in the table of claim 117 button efficiency increase method of the electric and electronic device. 127. The method of claim 127 wherein Among the buttons except for the first button to the eighth button, the first letter button is turned on and the fifth letter assigned to the letter button is turned on later, or the letter button turned on first is first. Specify to include an arbitrary ninth button and a tenth button as a combination induction button that causes the fifth letter assigned to the ON button to be written. Among the buttons except for the first button to the tenth button, the first letter button is turned on and the sixth letter assigned to the letter button is turned on later, or the letter button turned on first is first. A method of increasing the button efficiency of an electric and electronic device, characterized in that an arbitrary eleventh button and a twelfth button as a combination inducing button for writing a sixth letter assigned to an ON button are written. In the character data search method using a DB including "T9", when entering a search word, 118, 115, 116, 117, 118, 119, 120, or 121, the button efficiency of the electrical and electronic device characterized in that the method applied How to increase 130. The method of any of claims 122, 123, 124, 125, 126, 127, 128, 129 or 130, The method of increasing button efficiency of an electric and electronic device, characterized in that the inputting of the definite letters is implemented without changing the letter input mode. . . . . . Including computer keyboards or keypads on some mobile devices On keyboard Except for conventional combination induction buttons, including Shift, Ctrl, or Alt buttons If one button is on and another button is on before it is off Either button Method for increasing the button efficiency of the electric and electronic device, characterized in that to replace the function of the conventional combination dedicated dedicated button including the Shift, Ctrl, or Alt button. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, Perform a predetermined operation by a combination situation including a combination of two or more buttons that are ON at the same time, a sequence of combinations, or a pressing method, In letter-writing mode including volume control button or internet connection button to enable with one hand, when the button that does not respond to on is designated as the preceding or following combination induction button, the combination induction button and the relative partner button come on at the same time. A method for increasing button efficiency of an electric and electronic device, characterized in that a predetermined operation is performed as a combination button operation even if it is regarded as a combination between buttons even if there is no state. . In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

. . . . In the method of increasing the button operation efficiency of the device performing the operation by pressing a button, Although the spatial arrangement and order of the buttons are different from those in the table below, the button efficiency of electric and electronic devices is increased by matching the numbers, *, and # with the alphabet as shown in the table below, regardless of capital or small letters. Way.

The method according to any one of claims 101, 102, 103, 104, 140, 141, 142, 143, or 148, Assigned to 'Wyx' as 'yWx', or assigned in order of 'srP' to 'rsP', or assigned in the order of 'srPq' to 'rsPq', or Method for increasing button efficiency of an electric and electronic device, characterized in that the order assigned to the 'Wyxz' is changed to 'yWxz'. The method according to any one of claims 101 to 102, 103, 104, 140, 141, 142, 143, 148 or 149, The alphabetical order of the letters assigned to any one button of each letter button is the method of increasing the button efficiency of the electric and electronic device, characterized in that the assignment in alphabetical order. When displaying the letters assigned to one of each letter button on the button, prominently indicate the capitalization or coloration of the earliest or latest letters in the standard enumeration order of the entire alphabet of the letter system. How to increase the button efficiency of the electric and electronic device, characterized in that it is easy to recognize what the letters assigned to each button as a measure. In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, When a button with no letter is assigned as a combination induction button that allows a specific sequence of letters to be assigned to a button, the letter assigned to the character button when the combination induction button precedes or follows the character button is written. Method of increasing button efficiency of an electric and electronic device, characterized in that the specific order of the letters are different. The method of any one of claims 122, 123, 124, 125, 126, 127, 128, 129, 130, or 131. A method of increasing button efficiency of an electric and electronic device, characterized by extending data to search for data in which two or more words exist and to select a desired one. The method of any one of claims 122, 123, 124, 125, 126, 127, 128, 129, 130, 131, or 153. , When one character including Chinese, Japanese, and Korean has a sound of more than one syllable or when a word or phrase is inputted by a combination of characters, each character that constitutes a character or word or phrase in the DB is sounded. Pinyin to letters are automatically made to remember them, and then a part or all of each pinyin alphabet is entered as a search term so that candidate unique letters or words or phrases of unique letters are searched so that you can choose what you want. , If a DB is constructed by separating letters or words or phrases consisting of alphabets with one or more commas, such as a comma, when searching the DB and entering a word or phrase, part or whole alphabet of data The method of increasing the button efficiency of an electric and electronic device, characterized in that the candidate data is searched by inputting a search word to select a desired one. 154. The method of claim 154, wherein A method for increasing button efficiency of an electric and electronic device, characterized by inputting an alphabetic search term by dividing the alphabetic search term into a unit of each unique character. 154. The method of claim 154, wherein The method of increasing the button efficiency of an electric and electronic device, characterized in that the search term is formed without a separator when only one alphabet is selected from alphabet (s) forming a pinyin of any one unique character. . 158. The method of any one of claims 154, 155, or 156. The number of alphabetic spellings in any delimiter unit in the query By constructing a signal system that allows the device to know whether the number is the same as the alphabet spelling number or the lack of the number due to the pinyin of the unique characters forming the word to be searched for, the appropriate candidate word (s) is expressed. Method for increasing button efficiency of an electric and electronic device, characterized in that the user can select a desired word 154. The method of claim 154, wherein When searching for a word or phrase consisting of unique characters with one or more syllables in the DB, the unique characters are automatically pinyinized in the device so that they can be searched even if you enter the alphabet used to pinyin those types of characters as a search term. Method for increasing the button efficiency of an electric and electronic device, characterized in that. In character data search method using DB including "T9" Any part of a word or phrase Any number A button of an electric and electronic device, characterized by selecting a desired word or phrase by displaying a candidate data including a desired word or phrase by entering a search word by dividing one separator into one or more consecutive unknown letters. How to increase efficiency. 130. The method of any one of claims 110, 112, 114, 116, 118, 125, 127, 129, or 130, Change the function that allows the first letter to be written to the first job function that can be specified arbitrarily, Change the function that allows the second letter to be written into a second job function that can be arbitrarily assigned, Change the function that allows the third letter to be written to a third job function that can be specified arbitrarily, Change the function that allows the fourth letter to be written to the fourth job function that can be arbitrarily assigned. Change the function that allows the fifth letter to be written to the fifth job function that can be arbitrarily assigned. A method for increasing button efficiency of an electric and electronic device, characterized in that the function for allowing the sixth letter to be written is changed to a sixth work function that can be arbitrarily designated, and the function can be designated by changing the function according to a situation. 129. The method of any one of claims 110, 112, 114, 116, 118, 125, 127, 129, or 130. "Few" in the phrase "the few letters" assigned to the letter button changes depending on the situation, and the number of button presses corresponding to the letter when the letters assigned to the letter button are printed or entered in the multi-tap method. Or, the number is a method of increasing the button efficiency of the electric and electronic device, characterized in that the random number rather than a continuous ascending order. 105, 108, 109, 106, 107, 110, 111, 112, 113, 114, 115, 116, 117 130. The method of any of claims 118, 119, 120, 121, 125, 127, 129, or 130, A method of increasing the button efficiency of an electric and electronic device, characterized by inputting upper or lower case letters without changing the mode by designating various combination induction buttons in English. 105, 108, 109, 106, 107, 110, 111, 112, 113, 114, 115, 116, 117 121. The method of any of claims 118, 119, 120, or 121, wherein A method of increasing button efficiency of an electric and electronic device, characterized in that a character is input in parallel with another input method including a multi-tap input method without changing the character input method mode. 105, 106, 107, 108, 109, 110, 111, 112, 113, 114, 115, 116, 117 118, 119, or 120, 121, 125, 126, 127, 128, 129, 130 or 131 To The method of increasing the button efficiency of an electric and electronic device, characterized in that a combination is recognized even if the interval between the time when the first button is turned off and the time when the button is turned on is within a predetermined time interval. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, In the arrangement of the button portion and the display portion of the calculator, a button efficiency increasing method of the electric and electronic device, characterized in that the display portion above, the number button-arithmetic symbol button portion in the middle, the other button portion below. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, In the arrangement of the display portion and the button portion of the phone, the method of increasing the button efficiency of the electric and electronic device, characterized in that disposed above the display portion, in the middle of the letter button portion, the function button portion below. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, The method of increasing the button efficiency of an electric and electronic device, wherein the combination inducing button of the left combination inducing button or the right combination inducing button is disposed above the keyboard when the combination induction button of the keyboard is positioned. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided on the keyboard, a method for increasing button efficiency of an electric and electronic device, characterized by assigning different keys for each mode to give a change signal for each mode. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        To change the modes corresponding to one toggle key included in the keyboard, leave the toggle key as it is and assign different pressing methods including single shot, double click, triple click, and long hit to give the change signal of each mode. Method for increasing the button efficiency of an electric and electronic device, characterized in that. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided in the keyboard, the device which senses the motion is assigned a different body motion for each mode so as to recognize the motion so as to give a change signal of each mode. Method for increasing button efficiency of an electric and electronic device characterized in that. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided in the keyboard, different voice commands are assigned to each mode recognizable by the voice recognition apparatus to give a change signal of each mode. How to increase button efficiency. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided in the keyboard, a method of increasing the button efficiency of the electric and electronic device, characterized in that for assigning a mode change signal according to the combination of the toggle key and the other key. In the same letter input mode, assign a group of letters to each button to devices that have two or more letters assigned to one button, and assign the order of the element letters that make up the group of letters to each button. In doing that, List all letters of the letter system in standard enumeration order, then divide them into any number (s) that may vary in number to create letter groups, The assignment of the created character groups to each button is assigned by the assignor. To any one button The method of increasing the button efficiency of an electric and electronic device, characterized in that the order of element letters constituting any one letter group is in order of use frequency. In the character data search method using a DB including "T9", If you enter a word or phrase consisting of unique characters with one or more syllables containing one or more syllables, each unique character that constitutes the word or phrase in the DB is composed of the same type of alphabet as the alphabet that is Pinyinized as a phonetic alphabet. The method of increasing the button efficiency of an electric and electronic device, characterized in that the candidate word (s) or phrase (s) composed of unique characters are displayed by inputting a search word to select a desired word or phrase. 175. The method of claim 175 A method for increasing button efficiency of an electric and electronic device, characterized by inputting an alphabetic search term by dividing the alphabetic search term into a unit of each unique character. 175. The method of claim 175 The method of increasing the button efficiency of an electric and electronic device, characterized in that the search term is formed without a separator when only one alphabet is selected from alphabet (s) forming a pinyin of any one unique character. 175. The method of any of claims 175, 176, or 177. The number of alphabetic spellings in any delimiter unit in the query Appropriate candidate word (s) or phrases by constructing a signaling system that allows the device to know whether the number is equal to or less than the alphabet spelling by the pinyin of the unique character of the word or phrase in the DB. A method of increasing the button efficiency of an electric and electronic device, characterized by enabling the display of a word or phrase. 175. The method of any of claims 175, 176, 177, or 178. In a device that has two or more letter buttons assigned to one button in the same letter input mode, Method of increasing button efficiency of an electric and electronic device, characterized in that the alphabet of the search word includes a letter or unknown. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, Perform a predetermined operation by a combination situation including a combination of two or more buttons that are ON at the same time, a sequence of combinations, or a pressing method, The target combination or combination is a function that performs unique tasks without conventional combination induction functions such as the Esc button of the computer, the Home button, the Delete button, the function button of a mobile phone, the function button of a digital camera, and the function button of a remote control. Method for increasing the button efficiency of the electric and electronic device, characterized in that the case is used as a combination induction button. In the keyboard having a button part different from the letter button part as shown in FIG. Any letter button among the letter buttons in the letter button part A is shifted to another space including the direction button part B or the auxiliary numeric button part C to reduce the workload gap between the right hand and the left hand. Method of increasing the button efficiency of the electric and electronic device, characterized in that to improve the ease of use. A method of increasing button efficiency of an electric and electronic device, characterized in that the second letter is written by double-clicking when two or more letters are assigned to the button on the computer keyboard. In the character data search method using a DB including "T9", In a portable communication device in which there are two or more letter buttons assigned to one button in the same letter input mode, Method for increasing button efficiency of an electric and electronic device, characterized in that the search word is configured to include a definite character. In the character data search method using a DB including "T9", In a portable communication device in which there are two or more letter buttons assigned to one button in the same letter input mode, Method for increasing button efficiency of an electric and electronic device, characterized in that the search word is configured to include unknown characters. 175. The method of any one of claims 175, 176, 177, 178, or 179. In a portable communication device in which there are two or more letter buttons assigned to one button in the same letter input mode, Method for increasing button efficiency of an electric and electronic device, characterized in that the alphabet of the search word includes a definite letter. 175. The method of any one of claims 175, 176, 177, 178, or 179. In a portable communication device in which there are two or more letter buttons assigned to one button in the same letter input mode, Method for increasing the button efficiency of the electric and electronic device, characterized in that the unknown alphabet is included in the search word alphabet. 185. The method of any of claims 179, 183, or 185, A method of increasing the button efficiency of an electric and electronic device, characterized in that inputting a definite letter by a combination button method while maintaining the letter input mode of "T9" without changing the letter input mode. In the same character input mode, there is a character button having two or more letters assigned to one button, and in a method of increasing the button operating efficiency of a device which presses a button, Method of increasing the button efficiency of the electric and electronic device, characterized in that the letters corresponding to the order of the number assigned to the combination induction button of the letters assigned to the combination relative button. 123. The method of claim 123, wherein A method of increasing the button efficiency of an electric and electronic device, characterized in that only the data having a spelling that matches the spelling number of the search word is searched using a signal including a separator that the spelling number of the search word matches the spelling number of the data to be searched. 178. The method of claim 178, The number of alphabetic spellings in any delimiter unit in the query Use the signal containing the delimiter to match the spelling of the alphabet by the pinyin of the unique character of the word or phrase you want to find in the DB so that only the data with the spelling that matches the number of spellings in the delimiter unit of the query is searched. Method for increasing the button efficiency of an electric and electronic device, characterized in that. 178. The method of claim 178, The number of alphabetic spellings in any delimiter unit in the query To search only for data that has more than the number of spellings in the searcher's delimiter, using a signal containing a delimiter that is less than the alphabetic spelling by the pinyin of the unique character of the word or phrase in the database. Method for increasing button efficiency of an electric and electronic device characterized in that. 12 is a method of increasing the button efficiency of an electric and electronic device, characterized in that the position of the letter button portion or the direction button portion or the auxiliary numeric button portion in the keyboard having the letter button portion, the direction button portion and the auxiliary numeric button portion. 169. The method of any of claims 168, 169, 170, 171, 172 or 173, A keyboard is a method of increasing the button efficiency of an electric and electronic device, characterized in that limited to a computer keyboard. 124. The method of any one of claims 122, 123, or 124, wherein the method is limited to a portable communication device in which there are two or more character buttons assigned to one button in the same character input mode. How to increase button efficiency of electronic devices. 173. The method of claim 173, wherein the toggle key is a text mode conversion button including Korean, English, special characters, numbers, and Chinese characters of a communication device including a mobile phone, a PDA, and a wired telephone. Below is a variation on paragraph 173. In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button, In the operation of changing the modes corresponding to the text mode conversion button including Korean, English, special characters, numbers, and Chinese characters of communication devices including mobile phones, PDAs, and wired telephones, the characters according to the combination of the text mode conversion button and other buttons A method for increasing button efficiency of an electric and electronic device, characterized by allocating a mode change signal. Paragraph 173 below In the method of increasing the button operating efficiency of a part or all of the device performing the operation by pressing a button,        In the operation of changing the modes corresponding to one toggle key provided in the keyboard, a method of increasing the button efficiency of the electric and electronic device, characterized in that for assigning a mode change signal according to the combination of the toggle key and the other key. In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the phoneme input method of the following 40 phonemes, (When the whole phoneme is defined as 40 below) By assigning one or more of the phonemes that are not assigned to completion to the button, Added without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to be selected from the input. 40 phonemes in Korean 1. 14 basic consonants: a, b, c, d, l, w, m, o, h, h, h, h, h, h 2.5 consonants: ㄲ, ㄸ, ㅃ, ㅆ, ㅉ 3. 10 basic collections: ㅏ, ㅏ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ 4.11 vowels: ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅘ, ㅙ, ㅟ, ㅝ, ㅞ, ㅢ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the Korean alphabet consonant phoneme input method as below 19, (When the Korean consonant phoneme is the same as 19 below) By assigning one or more of the consonants that are not assigned to completion to the button, Added without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to be selected from the input. 19 Hangul consonants 1. 14 basic consonants: a, b, c, d, l, w, m, o, h, h, h, h, h, h 2.5 consonants: ㄲ, ㄸ, ㅃ, ㅆ, ㅉ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the basic Korean phonetic phoneme input method as below 10, (When Korean basic vowel phonemes are equal to 10 below) By assigning one or more of the default vowel phonemes that are not assigned to completion as complete, Added without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to select from the input. 10 basic vowel phonemes: ㅏ, ㅑ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the Korean alphabet vowel phoneme input method as below 11, (When Korean vowel phonemes are equal to 11 below) By assigning one or more of the consonants that are not assigned to completion to the button in addition, Added without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to be selected from the input. 11 double phonemes: ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅘ, ㅙ, ㅟ, ㅝ, ㅞ, ㅢ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the phoneme input method of the following 40 phonemes, (When the whole phoneme is defined as 40 below) One or more of the phonemes Without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to be selected from the input. 40 phonemes in Korean 1. 14 basic consonants: a, b, c, d, l, w, m, o, h, h, h, h, h, h 2.5 consonants: ㄲ, ㄸ, ㅃ, ㅆ, ㅉ 3. 10 basic collections: ㅏ, ㅏ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ 4.11 vowels: ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅘ, ㅙ, ㅟ, ㅝ, ㅞ, ㅢ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the Korean alphabet consonant phoneme input method as below 19, (When the Korean consonant phoneme is the same as 19 below) One or more of the consonants Without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to be selected from the input. 19 Hangul consonants 1. 14 basic consonants: a, b, c, d, l, w, m, o, h, h, h, h, h, h 2.5 consonants: ㄲ, ㄸ, ㅃ, ㅆ, ㅉ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the basic Korean phonetic phoneme input method as below 10, (When Korean basic vowel phonemes are equal to 10 below) One or more of the default vowel phonemes Without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to select from the input. 10 basic vowel phonemes: ㅏ, ㅑ, ㅓ, ㅕ, ㅗ, ㅛ, TT, ㅠ, ㅡ, ㅣ In a device having a few letter buttons 0-9, *, #, including a mobile phone and a landline phone, In the Korean alphabet vowel phoneme input method as below 11, (When Korean vowel phonemes are equal to 11 below) One or more of the phoneme vowels Without changing the text input mode, How to enter in complete, or Adding strokes, typing in a non-complete way that includes a combination of two or more characters Method of increasing the button efficiency of the electric and electronic device, characterized in that to be selected from the input. 11 double phonemes: ㅐ, ㅒ, ㅔ, ㅖ, ㅚ, ㅘ, ㅙ, ㅟ, ㅝ, ㅞ, ㅢ

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