KR20120129534A - apparatus and method for input system of finger keyboard - Google Patents

Abstract

PURPOSE: A method and an apparatus for input system of finger keyboard are provided to input characters on a user terminal without additional keyboard device using finger motion information. CONSTITUTION: A character string identification unit(100) detects and transmits data of finger motion as fingers moves. A character string analysis unit(300) receives finger motion data. The character string analysis unit determines whether the finger motion data is character string required for the user terminal or not. The character string analysis unit transmits the character string to the user terminal. [Reference numerals] (110) Detection sensor unit; (120) Information transmitting unit; (130) Control unit; (140) Power unit; (200) User terminal; (310) Information receiving unit; (320) Memory unit; (330) Information analysis unit; (340) Interface unit

Description

Finger keyboard input system and its method {apparatus and method for input system of finger keyboard}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a finger keyboard input system and a method thereof, and more particularly, a finger keyboard for measuring finger motion information such as a distance or an angle using a finger movement and using the same as a keyboard input of a user terminal such as a PC, a laptop, a smartphone, and the like. An input system and such a finger keyboard input method.

In general, the keyboard is connected to a computer and used to input various character strings, and the user is comfortable to input keys with both hands.

In such a keyboard, consonant keys are arranged on the left side and vowel keys are arranged on the right side, so that the user inputs the keys with both hands.

However, since most wired keyboards must be directly connected to a computer, there are many limitations in the environment.

Meanwhile, in recent years, wireless keyboards that are wirelessly connected to a computer have been widely used.

However, the wireless keyboard also needs to be carried in order to input a string, but this also has a problem in that it takes up a lot of space due to its large area as in a wired keyboard.

Accordingly, the present invention is to solve these problems, an object of the present invention is to use a keyboard motion information, such as the distance the finger moves or the angle of finger spread, such as a character string on the user terminal, such as PC, notebook, smartphone The present invention provides a finger keyboard input system capable of inputting such a finger keyboard input method.

Another object of the present invention is to provide a keyboard input system and a method for inputting keyboard input such as a character string and carrying a device for inputting a character string without a separate keyboard device.

In order to solve such a technical problem,

Character recognition means for measuring and transmitting finger motion information when a finger moves; And a character string analyzing means for receiving the finger motion information from the character string recognition unit to determine whether the character string is to be recognized by the user terminal and transmitting the recognized character string to the user terminal for inputting the keyboard. to provide.

In this case, the character string analyzing means may include an information receiver for receiving the finger motion information transmitted from the character string recognition means, and a corresponding character by comparing the finger motion information input through the information receiver with the character string information stored in the memory unit. And an information analyzer configured to analyze whether the character corresponds to the finger motion information, and an interface unit to transmit to the user terminal.

The string recognition means may include a detection sensor unit for measuring finger motion information by finger movement, an information transmission unit for transmitting finger motion information detected through the detection sensor unit to the string analysis unit, and the detection sensor unit. And a control unit for outputting the measured finger motion information to the information transmitting unit.

In addition, the detection sensor unit is located at the end of the user's finger and a plurality of touch sensors for generating a signal when touched, and when the touch signal of the touch sensor is input in accordance with the user's finger movement the touch according to the control signal of the controller A distance sensor for measuring a distance difference from the sensor; When a touch signal is input from a specific touch sensor among the plurality of touch sensors, the distance sensor measures a distance difference from a specific touch sensor, and the string analyzing means compares the distance difference, which is the finger motion information, with string information. If there is a character that fits, characterized in that for transmitting to the user terminal.

The detection sensor unit includes a plurality of angle measuring sensors positioned at an end of a user's finger to measure an angle due to movement of a finger, and an angle calculation sensor calculating an angle difference of the angle sensor according to a user's finger movement. When an angle signal is input from a specific angle measuring sensor among the plurality of angle measuring sensors, the angle calculating sensor measures an angle difference with a specific angle measuring sensor, and the character string analyzing means strings the angle difference which is the finger motion information. Characterized in that the condition is compared with the information is characterized in that the transmission to the user terminal.

The present invention also provides A first step of measuring finger motion information such as a distance difference or an angular difference due to a finger movement through a detection sensor unit of a character string analyzing means; a character string connecting finger motion information measured by the detection sensor unit of the character string analyzing means to a user terminal A second step of transmitting to the analyzing means, a third step of analyzing whether the corresponding character exists by comparing the finger motion information received by the character string analyzing means with the character string information stored in the memory unit, and analyzing the finger motion information. Also provided is a character keyboard input method comprising the step of transmitting a character string input to the user terminal if a character corresponding to the information.

In this case, the fourth step may be characterized by outputting an error message through the user terminal or invalidating a character string input to the user terminal if there is no character corresponding to the finger motion information by analyzing the finger motion information.

According to the present invention, a finger motion information such as a distance at which a finger moves or an angle at which a finger is opened may be measured without using a keyboard keyboard, and a string of a user terminal such as a portable electronic device or a computer may be input using the same.

In particular, the present invention can be very useful to the increasing number of smartphone users among the user terminal, it can be extended to various devices.

1 is a block diagram of a finger keyboard input system according to the present invention.
2 is a block diagram for measuring a distance difference according to a finger movement according to the present invention.
2 is a block diagram for measuring the angle difference according to the finger movement according to the present invention.
4 is a diagram sequentially illustrating a finger keyboard input process according to the present invention.

With reference to the accompanying drawings, a finger keyboard input system according to the present invention will be understood by the embodiments described in detail below.

Referring to FIG. 1, the finger keyboard input system according to the present invention is connected to a user terminal 200 and a character string recognition means 100 for measuring and transmitting finger motion information such as a distance at which a finger moves or an angle at which a finger opens. Receiving finger motion information from the recognition means 100 determines whether the user terminal 200 is a character string to be recognized by the character string analysis means 300 to transmit to the user terminal 200 for keyboard input.

The character string recognition means 100 includes a detection sensor unit 110 for measuring finger motion information such as a distance or an angle due to a finger movement, and the character string analysis of the finger motion information detected through the detection sensor unit 110. An information transmitter 120 for transmitting to the means 300, and a controller 130 for outputting the finger motion information measured by the detection sensor 110 to the information transmitter 120.

Meanwhile, the finger motion information transmitted through the information transmitting unit 120 of the character string recognition unit 100 is received by the character string analysis unit 300 connected to the user terminal 200.

The information receiver 310 receiving the finger motion information received through the string analyzing means 300 and the finger motion information input through the information receiver 310 are compared with the string information stored in the memory 320. The information analyzer 330 analyzes whether a corresponding character exists and the interface unit 340 transmits the character corresponding to the finger motion information to the user terminal 200.

In this case, the information transmission unit 120 may transmit the finger motion information detected through the detection sensor unit 110 to the information analysis unit 330 of the string analysis means 300 in a wired manner, but for convenience of use. For example, the information transmitter 120 and the information receiver 310 may be configured as a Bluetooth module capable of wireless data communication.

As the information transmitting unit 120 and the information receiving unit 310 are configured as a Bluetooth module capable of wireless data communication, the character string recognition unit 100 must be independently driven, and thus has a separate power supply unit 140. Of course, the power supply 140 is preferably using a battery or a rechargeable battery.

The string recognizing means 100 for recognizing a character string by an interface method providing such a function is attached to a finger, and the information transmitting part 120 for transmitting the finger motion information detected through the detection sensor 110 is a cuff ( Or it can be provided separately in the form of attachment to other body parts), it is also possible to provide a one-piece in which all these functions are combined through a glove.

Hereinafter, with reference to Figure 2 will be described in detail the configuration of the character string recognition means 100 of the present invention to measure the distance difference due to finger movement.

The string recognizing means 100 includes a detection sensor unit 110 for measuring a distance difference which is finger motion information, and a distance difference which is finger motion information detected through the detection sensor unit 110 as the character string analyzing means 300. It consists of an information transmitter 120 for transmission.

In this case, the detection sensor unit 110 is located at the end of the user's finger and a plurality of touch sensors 112 for generating a signal when the object is touched, and the touch signal of the touch sensor 112 according to the user's finger movement When input, the distance sensor 114 measures a distance difference from the touch sensor 112 according to a control signal of the controller 130.

In this case, the touch sensor 112 is located at the end of each finger of the user, the distance sensor 114 is preferably located in the palm, such a detection sensor unit 110 is integral to the glove-type wearing member 111. It is preferable to be provided with.

According to such a configuration, when a touch signal is input from the specific touch sensor 112 among the plurality of touch sensors 112, the distance sensor 114 measures a distance difference from the specific touch sensor 112.

The distance difference is transmitted through the information transmitter 120 as finger motion information, which is received by the character string analyzing means 300.

The character string analyzing means 300 compares the distance value, which is the finger motion information input through the information receiver 310, with the character string matching the condition in the information analyzer 330 to the character string information stored in the memory 320. The transmission is transmitted to the user terminal 200 through the interface unit 340.

For example, the lower side of the left hand recognizes 'z', 'x', 'c', 'v', and 'b' (in Korean, ㅋ, ㅌ, ㅊ, ㄷ, ㅠ) and the lower side of the right hand is 'n' , 'm', ',', '.', '/' ('TT', 'ㅡ', '.', '/'). The center of the left hand recognizes 'a', 's', 'd', 'f', 'g' (in Korean, 'ㅁ', 'ㄴ', 'ㅇ', 'ㄹ', 'ㅎ') The middle of the right hand recognizes 'h', 'j', 'k', 'l', ';' ('ㅗ', 'ㅓ', 'ㅏ', 'ㅣ', ';'). Also, the upper side of the left hand recognizes q, w, e, r, t (ㅂ, ㅈ, ㄷ, ㄱ, ㅅ), and the upper side of the right hand is' y ',' u ',' i ',' o ',' p '(' ㅛ ',' ㅕ ',' ㅑ ',' ㅐ ',' ㅔ ') is recognized.

Of course, the top of the left hand recognizes' 1 ',' 2 ',' 3 ',' 4 'and' 5 ', and the top of the right hand' 6 ',' 7 ',' 8 ',' 9 ',' Each touch sensor 112 provided for each finger is used to recognize 0 ', and when the specific touch sensor 112 is pressed, the distance from the corresponding touch sensor 112 is detected by the distance sensor 114. .

That is, when the little finger is in contact with an object such as a desk so as to be positioned at the letter 'a' in the center of the left hand, the distance sensor 114 measures the distance difference from the touch sensor 112 at the little finger's position.

The distance difference is input to the character string analyzing means 300 and compared with the character string information stored in the memory 320 to determine whether there is a character matching the condition, and if the corresponding character is 'a', the interface unit 340 Is transmitted to the user terminal 200 through.

In this case, since the size of the hand is different for each person, it is preferable to set the distance difference through a user-specified method. You can set it by first placing your hand in the number column and decreasing it by one space down. In this case, since it is possible to measure the position difference of each finger, it is possible for the index finger to recognize two portions of the keyboard instead of the thumb.

Next, with reference to Figure 3 will be described in detail the configuration of the character string recognition means 100 of the present invention to measure the angle difference of the finger caused by the movement of the finger.

The character string recognition unit 100 analyzes the character string of the detection sensor unit 110 for measuring the angle difference according to the bending of the finger which is the finger motion information, and the angle difference which is the finger motion information detected through the detection sensor unit 110. It consists of an information transmitter 120 for transmitting to the means 300.

At this time, the detection sensor unit 110 is located at the user's finger end of the plurality of angle measuring sensor 116 for measuring the angle due to the movement of the finger, the user's finger movement of the angle measuring sensor 116 It consists of an angle calculation sensor 118 for calculating the angle difference.

In this case, the angle measuring sensor 116 is preferably located at the end of each finger of the user, it is preferable that the glove-shaped wearing member 115 is provided integrally.

According to such a configuration, when an angle signal is input from a specific angle measuring sensor 116 among the plurality of angle measuring sensors 116, the angle calculation sensor 118 measures an angle difference with the specific angle measuring sensor 116.

In this case, the angle measured by the angle measuring sensor 116 can measure the internal angle (쪽) because the finger can move toward the palm.

The angle difference is transmitted through the information transmitting unit 120 as finger motion information, which is received by the character string analyzing means 300.

The character string analyzing means 300 compares an angle value, which is finger motion information input through the information receiver 310, with character strings corresponding to a condition by comparing the character value stored in the memory unit 320 in the information analyzer 330. The transmission is transmitted to the user terminal 200 through the interface unit 340.

In this case, the recognition angle measured by the angle sensor 116 is limited to a minimum of 0 ° to a maximum of 120 ° of the inner angle of the finger.

Therefore, by dividing the finger angle into n cabinet angles from 0 ° to 120 °, n * 10 strings can be input as many as the number of fingers. That is, for example, when touching four lines of characters with ten fingers, a total of 40 characters may be recognized.

In addition, when n = 1, the angle measuring sensor 116 recognizes the angle of 120 ° ≥ a ₁> 0 °, and recognizes the angle of 120 ° ≥ a ₁ a 2> 0 ° when n = 2. That is, according to the folding angle of the finger.

Therefore, when the input method is 120 ° ≥ a₁> a₂> a₃> a₄≥ 0 °, the keyboard type is recognized for the angle corresponding to 'a₁', and the lower side of the left hand is' z ',' x ',' c ',' v ',' b '(ㅋ, ㅌ, ㅊ, ㄴ, ㅠ in Korean) and the lower right hand is' n', 'm', ',', '.', '/' ('TT', 'ㅡ', '.', '/')

In the case of 'a₂', the center of the left hand is' a ',' s', 'd', 'f', 'g' (in Korean, 'ㅁ', 'ㄴ', 'ㅇ', ' ㄹ ',' ㅎ '), and the center of the right hand is' h', 'j', 'k', 'l', ';' ('ㅗ', 'ㅓ', 'ㅏ', 'ㅣ' , ';').

Also, for the angle corresponding to 'a₃', the upper side of the left hand recognizes q, w, e, r, t (ㅂ, ㅈ, ㄷ, ㄱ, ㅅ), and the upper side of the right hand is' y ',' u ',' i ',' o ',' p '(' ㅛ ',' ㅕ ',' ㅑ ',' ㅐ ',' ㅔ ') are recognized.

In case of the angle corresponding to 'a₄', the uppermost side of the left hand recognizes' 1 ',' 2 ',' 3 ',' 4 'and' 5 ', and the uppermost side of the right hand is' 6', '7', ' Recognize 8 ',' 9 'and' 0 'to make the same configuration as the current keyboard.

For example, when each angle measuring sensor 116 provided on the finger detects an angle value, it is input to the character string analyzing means 300 and compared with character string information stored in the memory unit 320 to determine whether a character matching the condition exists. If the corresponding character is present, the character is transmitted to the user terminal 200 through the interface unit 340.

In this case, there are two ways to classify the cabinets: divided into the cabinets provided by the program, and two ways of setting the cabinets by user designation. In some cases, the user can find the angle that can be used most frequently through learning or in consideration of statistical frequency, set the angle, or provide an interface to adjust the cabinet through various users. Allows you to set a comfortable angle.

In addition, by adding a sensing sensor for separate signal recognition to a portion of the finger further includes a function that can recognize the keyboard, such as shift (shift), control (ctrl) of the keyboard string using the contact or static electricity between the sensors. desirable.

Hereinafter, a keyboard input process according to the present invention will be described with reference to FIGS. 1 to 4.

The string recognition means 100 is worn on the hand, and the string analysis means 300 is connected to the user terminal 200 to check the reception state (S100), and drives an application (S110).

At this time, the user determines whether to set the distance difference or the angle (S120).

Therefore, since the size of the user's hand or the folding angle of the finger is different, it is possible to set a distance difference or angle suitable for the user (S130).

When the finger moves after such a process, the finger motion information such as distance or angle is measured by the detection sensor unit 110 of the character string analyzing means 300. At this time, when the detection sensor unit 110 is composed of the touch sensor 112 and the distance sensor 114, measuring the distance difference between the touch sensor 112 and the distance sensor 114, the angle measuring sensor 116 and the angle In the case of the operational sensor 118, the bending angle of the finger is measured.

It transmits to the character string analysis means 300 connected to the user terminal 200 through the information transmitting unit 120 of the character string recognition means (100) (S150).

When the character string analyzing means 300 receives the finger motion information transmitted from the character string recognition means 100 (S160), the character analysis means 330 compares the character string information stored in the memory unit 320 with the corresponding character. If the character corresponding to the finger motion information exists and transmits it to the user terminal 200, it is transmitted (S170).

In this case, as a result of analyzing the finger motion information, if the user terminal 200 does not recognize the information, an error message is output through a display unit (not shown) of the user terminal 200 or a character string is input to the user terminal 200. To invalidate.

Meanwhile, as a result of analyzing the keyboard string recognized by the user terminal 200, a confirmation message is output when the character string is recognized by the user terminal.

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: string recognition means 110: detection sensor unit
112: touch sensor 114: distance sensor
116: angle measuring sensor 118: angle calculation sensor
120: information transmission unit 130: control unit
200: user terminal 300: string analysis means
310: information receiving unit 320: memory unit
330: information analysis unit 340: interface unit

Claims (7)

Character recognition means for measuring and transmitting finger motion information when a finger moves;
And a character string analyzing means for receiving the finger motion information from the character string recognition unit to determine whether the character string is to be recognized by the user terminal and transmitting the recognized character string to the user terminal for inputting the keyboard.
According to claim 1, wherein the character string analysis means,
An information receiver which receives the finger motion information transmitted from the character string recognition means, an information analyzer which analyzes whether a corresponding character exists by comparing the finger motion information input through the information receiver with string information stored in the memory part; And an interface unit for transmitting the character corresponding to the finger motion information to the user terminal.
According to claim 1, wherein the character string recognition means,
A detection sensor unit for measuring finger motion information by finger movement, an information transmission unit for transmitting the finger motion information detected through the detection sensor unit to the string analyzing unit, and the finger motion information measured by the detection sensor unit; Finger keyboard input system comprising a control unit for outputting to the transmission unit.
The method of claim 1,
The detection sensor unit is located at the end of the user's finger and a plurality of touch sensors for generating a signal when touched on the object, and when the touch signal of the touch sensor is input according to the user's finger movement and the touch sensor according to the control signal of the controller It consists of a distance sensor for measuring the distance difference of;
When a touch signal is input from a specific touch sensor among the plurality of touch sensors, the distance sensor measures a distance difference from the specific touch sensor,
And the character string analyzing means compares the distance difference, which is the finger motion information, with character string information, and transmits the character to match the condition to the user terminal.
The method of claim 1,
The detection sensor unit is composed of a plurality of angle measuring sensors that are positioned at the user's finger end to measure the angle due to the movement of the finger, and the angle calculation sensor for calculating the angle difference of the angle sensor according to the user's finger movement,
Among the plurality of angle measuring sensors, when an angle signal is input from a specific angle measuring sensor, the angle calculating sensor measures an angle difference with a specific angle measuring sensor,
And the character string analyzing means compares the angular difference, which is the finger motion information, with character string information and transmits the character matching the condition to the user terminal.
A first step of measuring finger motion information such as a distance difference or an angle difference due to the finger movement through the detection sensor unit of the character string analyzing means;
A second step of transmitting finger motion information measured by the detection sensor unit of the character string analyzing means to a character string analyzing means connected to a user terminal;
A third step of analyzing whether a corresponding character exists by comparing finger motion information received by the string analyzing means with string information stored in a memory unit;
And a fourth step of analyzing the finger motion information and transmitting a character string input to the user terminal if a character corresponding to the finger motion information exists.
The method according to claim 6,
In the fourth step, if the text corresponding to the finger motion information does not exist by analyzing the finger motion information, an error message is output through the user terminal or the character keyboard input method is invalidated.

Images