JP3799839B2 - Data input device, data input method, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data input device, and more specifically, a plurality of keys are arranged in a range that can be operated with one hand, data is specified based on the operation of the key, and the specified data is stored in a predetermined form in a desired form. The present invention relates to a data input device for inputting data into a device.
[0002]
[Prior art]
2. Description of the Related Art In recent years, various electric products have been proposed in which data created by a user can be input. For example, it is possible to input text and character strings desired by users not only on portable PCs but also on mobile phones and electronic notebooks, etc., and ticketing tickets installed at ATM devices installed at banks and railway counters Also in the apparatus, it is possible to input numbers, symbols, characters, etc. in order to search for information related to a specific bank account or train. In order to input data to such an electrical product, conventionally, a method of connecting a full keyboard to the electrical product or a method of providing an input key for data input in advance in the electrical product has been adopted.
[0003]
In a full keyboard, each character and input key are assigned one-to-one for characters of the same character type. Accordingly, a large number of input keys are required to realize character input.
[0004]
[Problems to be solved by the invention]
However, when the target to which the full keyboard is connected is a portable electrical product, the keyboard is larger than the electrical product itself due to the arrangement of the input keys, and the input device cannot be carried. There was a difficulty. Further, even when an input key is provided in advance in an electrical product, it is difficult to secure an installation space for the input key in the product itself when the target to be provided with the key is a small electrical product.
[0005]
On the other hand, in order to overcome this difficulty, keyboards and electrical products having fewer input keys than full keyboards have been proposed. For example, in a cellular phone, 12 operation buttons for dialing are used as data input keys. In other words, a plurality of different characters of the same character type are assigned to each operation button, and 26 alphabets and Japanese syllabary characters can be input with 12 operation buttons. And data input using special symbols.
[0006]
However, in the process until the desired data is input, the user is selected based on not only the operation of the input key for selecting the desired character or symbol but also the selection of the character type or the operation of the incorrect input key. It is necessary to perform operations such as deletion of characters and symbols, conversion to Kanji, and confirmation of data. In this regard, in the past, function keys for realizing each operation were merely provided separately from the input keys according to the contents of each operation, and as a result, the number of keys as a whole increased. There was a difficult point.
[0007]
Therefore, the data input device of the present invention realizes the work necessary for inputting desired data by a simple operation with a small number of keys, and saves the space for installing keys in electrical products. The following configuration was adopted as the purpose.
[0008]
[Means for solving the problems and their functions and effects]
The data input device of the present invention is a data in which a plurality of keys are arranged in a range that can be operated with one hand, data is specified based on the key operation, and the specified data is input to a predetermined device in a desired form. An input device,
Form determining means for determining the form of data input to the predetermined device or the form of input data;
Extraction means for extracting conversion candidates of the identified data;
Candidate display means for selectively displaying the extracted conversion candidates on a predetermined display unit;
With
The candidate display means displays, on the predetermined display section, an option for determining the form of the input data and the conversion candidate between the option and the conversion candidate according to an operation of the key. Is displayed at adjacent positions that can be selected while freely moving,
Options for determining the form of the input data displayed on the display unit include an option for selecting an input deletion function for deleting an already input key code, and an already input character / symbol The gist is to include either an option for selecting a single character deletion function for deleting a character / symbol from data, or an option for selecting an editing function for editing already input character / symbol data.
[0009]
Here, the data input device refers to a device for inputting data into a device. For example, in addition to a keyboard connected to a stationary computer such as a desktop computer, a notebook computer, a key card, a small information terminal. It refers to a character input device used for portable information devices such as electronic notebooks, data input units of telephone devices such as mobile phones, and product information input devices for inputting operation information and setting information of various electric products.
[0010]
This data input device is not limited to one used by being connected to a device or product, but may be provided in advance in the device or product itself. Any device that can input data is sufficient, and it does not matter whether the input data can be stored or modified.
[0011]
The form determining means refers to means for determining the form of input data. For example, determination of the range of data to be input, determination of the character type of input data (for example, numbers, alphabetic characters, kana characters, kanji, symbols, etc.), character size, typeface, font or emphasis of input data The determination of the presence or absence, special symbols, etc. can be considered.
[0012]
According to the data input device of the present invention, the data specified based on the key operation is input to a predetermined device in a desired form. The form determining means determines the form of the input data. On the other hand, the candidate display means freely moves the option for determining the form of the input data and the conversion candidate to a predetermined display unit between the option and the conversion candidate according to the key operation. While displaying, selectable adjacent positions.
[0013]
Accordingly, since the option and the conversion candidate can be selected while freely moving between the option displayed at the adjacent position on the display unit and the conversion candidate, the form of the input data is selected or determined. Therefore, it is not necessary to provide a function key for reducing the number of keys. As a result, a key for data input can be easily arranged on a portable or small-sized device.
[0014]
In addition, the candidate display unit displays both options for determining the form of input data and the extracted conversion candidates on a predetermined display unit. Therefore, it is not necessary to specify a display unit according to the selection target, and it is easy to select both options and conversion candidates. Further, when selecting an option or a conversion candidate, there is no need to provide a function key for designating a display unit to be selected.
[0015]
It is also desirable to include a selection unit that enables selection of the option when the conversion candidate is displayed by the candidate display unit. With this configuration, when a conversion candidate is displayed, it is possible not only to select one conversion candidate, but also to determine the form of the input data. Desired input data can be determined.
[0016]
It is also preferable that the selection unit is a unit that realizes selection of options displayed by the candidate display unit and selection of conversion candidates by the same operation. According to this configuration, the selection of the choice from the display on the display unit is performed by the same key operation as that for selecting the conversion candidate. Therefore, the number of keys can be reduced by sharing the keys, and the operation by the user can be performed. Becomes easy.
[0017]
In this case, if the configuration allows selection between the option and the conversion candidate by a continuous operation, the option and the conversion candidate can be sequentially selected with one key operation, and the operation labor associated with the selection can be reduced. This can be further reduced.
[0018]
The extraction unit may be a unit that generates a kana character string from data specified based on a key operation, refers to a dictionary for the kana character string, and extracts conversion candidates corresponding to the kana character string. According to this configuration, it is possible to extract conversion candidates after performing grammatical analysis before and after referring to the dictionary for the generated character string. Therefore, conversion candidates to be displayed can be narrowed down. As a result, by reducing the number of selection targets, it is possible to reduce the operation effort associated with selection of options and conversion candidates.
[0019]
It is also desirable that the candidate display means be means for displaying different options depending on the presence or absence of data specified based on key operations. For example, for options related to functions that can be executed only when there is no specified data, if the specified data is not displayed, the number of displayed options will be reduced, and work associated with the selection of the options Improves.
[0020]
The option displayed at a predetermined position on the display unit may be configured to include option selection means that realizes selection of an option and execution of the contents of the selected option by the same operation. According to this configuration, it is possible to easily move from “an operation for selecting an option from the display” to “an operation for executing the content of the selected option”. Therefore, it is possible to realize operability equivalent to or better than the case where function keys for selecting and executing the form of input data are separately provided.
[0021]
Here, the predetermined position of the display unit is not particularly limited as long as it is a position in the display region of the display unit. For example, the position at the end of the display region is conceivable. If an option for deleting at least a part of the data specified by the key operation is displayed at this position, the selection of the deletion function and the execution of the deletion function can be performed by one key operation. Deletion is easy.
[0022]
In addition to the option for deleting at least a part of the specified data, an option indicating a state in which data input by key operation is allowed is displayed, and an option for deletion is selected based on this display. After the deletion of data is executed, the designation display means may designate an option for permitting the input of data, and display that the option is selected so as to be visible. According to this configuration, it is possible to easily grasp that the data input device has returned to a state in which data can be input after selection of the deletion function is selected and data is deleted.
[0023]
Furthermore, it is also desirable to have a configuration in which options indicating a state where data input is allowed are displayed at a position adjacent to the position where the option for deletion is displayed. By doing this, it is possible to easily select an option for deletion from an option indicating a state in which data input is allowed, so that it is possible to realize continuous data deletion with a simple operation.
[0024]
The mode determining means is a mode switching means for determining the form of data input to a predetermined device by switching the data input mode specified by the key operation, and the option displayed by the candidate display means is input. It is also preferable to use options for switching modes. According to this configuration, there is no need to separately provide a function key for selecting or executing switching to a desired input mode, and the input mode can be easily switched by selecting an option from the display on the display unit. be able to.
[0025]
In particular, when inputting data in which many character types are mixed, the input mode is frequently switched. In such a case, since the options for mode switching are displayed on the display section so as to be selectable, it is not necessary to search for a dedicated function key for mode switching.
[0026]
When the data specified by the key operation exists, the configuration may be such that the option for switching the mode is not displayed. By adopting this configuration, when displaying conversion candidates for the specified data, the number of options displayed is reduced, and the workability associated with selection of options is improved.
[0027]
The mode switching means is a means for switching the input mode between input in at least one mode of alphabetic characters and numbers and input in kana characters, and the mode switching means has switched to either the alphabetic or numeric input mode. When the key is operated in a state, one data is determined from the data specified based on the key operation without extracting conversion candidates by the extracting means, and the determined data is input to a predetermined device. It is also possible to adopt a configuration to According to this configuration, when the input mode is switched to either alphabetic characters or numbers, one data is determined and input from the data specified based on the key operation, so that the conversion candidate is displayed on the display unit. Is not displayed. Therefore, data can be input quickly without performing an operation of selecting conversion candidates.
[0028]
The telephone device of the present invention is
It has a plurality of operation buttons for transmitting dial signals for a call by operation, specifies data based on at least some operations of the plurality of operation buttons, and inputs the specified data in a desired form A telephone device provided with data input means,
Form determining means for determining the mode of data input by the data input means;
Extraction means for extracting conversion candidates of the identified data;
Candidate display means for selectively displaying the extracted conversion candidates on a predetermined display unit;
With
The gist of the candidate display means is a means for selectively displaying, on the predetermined display section, options for determining the form of the input data together with the conversion candidates.
[0029]
According to the telephone device of the present invention, it is provided with data input means for inputting, in a desired form, data specified based on at least some operations of a plurality of operation buttons for transmitting a dial signal for a call. The form of the data input by the data input means is determined by the form determining means. On the other hand, the candidate display means displays the conversion candidates extracted by the extraction means in a selectable manner for determining the form of input data.
[0030]
Therefore, since it is possible to select an option from the display on the display unit, it is not necessary to provide a function key for selecting or determining the form of input data, and the number of keys can be reduced. Therefore, in order to realize data input, it is possible to keep the number of keys to be installed in the telephone device apart from the operation buttons for transmitting dial signals to a minimum number. As a result, it is possible to enlarge the display unit by the amount that the area occupied by the key in the telephone device is reduced, and data can be input in an easy-to-see environment.
[0031]
The data input method of the present invention includes:
A data input method for arranging a plurality of keys in a range that can be operated with one hand, specifying data based on the operation of the keys, and inputting the specified data to a predetermined device in a desired form,
Determining a form of data input to the predetermined device;
Extracting conversion candidates for the identified data;
A step of displaying selectable options for determining the extracted conversion candidates and the form of the input data on a predetermined display unit; and
It is a summary to provide.
[0032]
According to the data input method of the present invention, the data specified based on the key operation is input to a predetermined device in a desired form. While determining the form of the input data, the conversion candidates of the specified data are extracted, and the options for determining the extracted conversion candidates and the form of the input data are selected on a predetermined display unit Display as possible.
[0033]
Accordingly, since the choice is selected from the display on the display unit, it is not necessary to select or determine the form of the input data by operating a function key or the like provided separately from the input key. Therefore, data can be input with a small number of keys. As a result, it becomes easy to provide a system for inputting various data even in a portable or small-sized device with a small space for arranging keys.
[0034]
The first recording medium of the present invention is
A recording medium in which a plurality of keys are arranged in a range that can be operated with one hand, data is specified based on the key operation, and a program for inputting the specified data to a predetermined device in a desired form is recorded. There,
Determining a form of data input to the predetermined device;
Extracting conversion candidates for the identified data;
A step of displaying selectable options for determining the extracted conversion candidates and the form of the input data on a predetermined display unit; and
The gist of the invention is that a program for causing the computer to execute is recorded on the computer in a readable manner.
[0035]
The program recorded on such a recording medium is read and executed by a computer. The computer executes this program to realize the above data input method. That is, the data specified based on the key operation is input to a predetermined device in a desired form, and the form of the input data is determined, while the conversion candidate of the specified data is extracted and extracted. Options for determining the conversion candidate and the form of input data are displayed on a predetermined display section so as to be selectable.
[0036]
Since such a program is realized by a computer, it is possible to select an option from display on the display unit. Therefore, it is necessary to provide a function key for selecting or determining the form of input data in the input device. In addition, the number of keys can be reduced. Therefore, by using the recording medium of the present invention in a device with a built-in computer capable of reading a program, even if the device is a portable or small device with a small space for arranging keys, various data input means Can be provided.
[0037]
In addition, the computer can read the reference data for each process and process implementation which comprise the program mentioned above from a separate recording medium or a program supply apparatus, and can fully execute the program mentioned above by uniting each process. . Therefore, the data input method of the present invention can also be realized by the second recording medium of the present invention described below.
[0038]
The second recording medium of the present invention is
The data is identified based on the operation of a key to which a plurality of different data of the same character type is assigned, the conversion candidate of the data is extracted while determining the input form of the identified data, and the extracted conversion A computer capable of executing a data input program for displaying a candidate on a predetermined display section so as to be selectable and inputting one conversion candidate selected in the display as confirmed data can be executed by being installed in the computer. A recording medium on which a program is recorded,
A step of displaying selectable options for determining the extracted conversion candidates and the form of the input data on the predetermined display unit in a selectable manner
The gist of the invention is that a program for causing the computer to execute is recorded on the computer in a readable manner.
[0039]
A second recording medium of the present invention is a program for causing a computer to execute a step of selectively displaying extracted conversion candidates and options for determining the form of input data on a predetermined display unit. Record. When this recording medium is installed in a computer that can execute the data input program, the program recorded on the recording medium is incorporated into the processing steps of the data input program, thereby realizing the data input method of the present invention described above.
[0040]
Other aspects of the invention
As another aspect of the present invention, there is an aspect as a program supply apparatus that supplies a computer program that causes a computer to realize the functions of the respective steps or means of the above-described invention via a communication path. In such an aspect, the above-described data input device and data input method can be realized by placing the program on a server on a network, etc., downloading a necessary program to a computer via a communication path, and executing the program. it can.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
In order to further clarify the configuration and operation of the present invention described above, embodiments of the present invention will be described based on examples. FIG. 1 is an explanatory view showing an appearance of a one-handed keyboard 10 according to a first embodiment of the present invention. FIG. 2 is an explanatory view showing a state in which the one-handed keyboard according to the first embodiment is connected to a small information terminal 12. 3 is an explanatory diagram showing a data input start screen displayed on the liquid crystal display 14 of the small information terminal 12, and FIG. 4 is a block diagram showing a hardware configuration for realizing data input by the one-handed keyboard 10. It is. The first embodiment will be described below with reference to these drawings. For convenience of explanation, description will be made in the order of FIG. 2, FIG. 4, FIG.
[0042]
As shown in FIG. 2, in this embodiment, a one-handed keyboard 10 is connected to a small information terminal 12 and used. The small information terminal 12 is mainly used as a communication device for inputting data such as characters, symbols, images, and the like, and serving as a data processing device for storing or displaying the data and transmitting / receiving the input or stored data through a telephone line. Have both roles. The data is created based on key input from the one-handed keyboard 10, and the process of creating the data and the created result are displayed on the liquid crystal display 14 provided on the front surface of the small information terminal 12.
[0043]
The hardware configuration necessary for creating and displaying such data is shown in the block diagram of FIG. As shown in FIG. 4, processing for creating and displaying data based on key operations is performed by a computer constituted by a CPU 34, a ROM, and the like. In the present embodiment, this computer is provided in the small information terminal 12, but of course, it may be provided on the one-handed keyboard 10 side.
[0044]
The small information terminal 12 includes a one-hand keyboard 10 as a data input device, a printer 54 as a printing device, a modem 56 as an A / D conversion device, and the like as peripheral devices. Of course, a configuration including other peripheral devices such as a mouse, a handwritten character recognition board, and a pen input board may be used.
[0045]
The computer in the small information terminal 12 includes the following units connected to each other by a bus 35 with a CPU 34 for executing various arithmetic processes as a center. The ROM is a memory that stores programs and reference data necessary for executing various arithmetic processes by the CPU 21 in advance, and includes a control ROM 42, an input ROM 36, and a dictionary ROM 48. The control ROM 42 stores programs and reference data related to execution such as document creation, storage, reading, editing, and document transmission / reception, and the input ROM 36 stores programs and reference data related to data input to the small information terminal 12. To do.
[0046]
The dictionary ROM 48 stores various programs loaded into the input RAM 38 and executed, a kana-kanji conversion processing program provided in a device driver format or module format, or various conversion dictionaries. Various programs and necessary reference data similar to those described above are stored in a hard disk, CD-ROM, or the like (not shown), and the computer can be executed by loading these various programs and reference data. Is possible.
[0047]
The control RAM 44 and the input RAM 38 are memories for temporarily storing various data necessary for the CPU 21 to execute various arithmetic processes. The input interface 40 controls input of key signals from the one-handed keyboard 10. A display controller (DC) 46 controls signal output to the liquid crystal display 14 as a display device, and an output interface 52 controls output of data to the printer 54.
[0048]
A serial input / output interface (SIO) 50 is connected to the bus 35. The SIO 50 is connected to the public telephone line PTL via the modem 56. The computer in the small information terminal 12 can be connected to the external network NW via the public telephone line PTL. Further, by providing a hard disk, it is possible to access a specific server SV and download necessary programs and data.
[0049]
A one-handed keyboard 10 as an input device will be described with reference to FIG. The one-handed keyboard 10 has a total of 15 keys. The breakdown of these keys is displayed in ten input keys 16a to 16j for inputting data consisting of characters and symbols (hereinafter referred to as character / symbol data), and a selection element display area 28 on the liquid crystal display 14. Two movement keys 18a and 18b for selecting each function and conversion candidate, an input data transfer key 20 for transferring the input character / symbol data to the application side, and erasing the input character / symbol data An input data cancel key 22 for displaying a character / symbol data input method using the one-handed keyboard 10.
[0050]
These keys are arranged in an area that can be operated by four fingers excluding the thumb among the five fingers of one hand. Further, the input keys 16a to 16j and the movement keys 18a and 18b are arranged in the same layout as the push dial of the telephone having four columns and three columns, and the input keys 16a to j have “0” to “9”. The numbers up to "" are assigned to the movement keys 18a and 18b with two symbols "*" (asterisk) and "#" (sharp) in the same positional relationship as the push dial number of the telephone.
[0051]
The input keys 16a to 16j include a number from "0" to "9", a Roman alphabet consisting of 19 alphabetic characters, and "," (comma), "." (Period), and "-" (hyphen). A code is assigned, and this Roman letter and code are assigned to one input key in a multiple manner.
[0052]
In the present embodiment, Roman characters and codes are assigned so that the input keys 16a to 16j are used evenly. In order to realize such assignment, the frequency of use of each character and each code when inputting data. Etc. are considered. For example, the input key 16d to which the most frequently used vowel “A” is assigned is not assigned with another roman letter or code, and the input key 16a to which the relatively frequently used vowel “E” is assigned is not assigned. The consonant “B”, which is relatively infrequently used, is assigned redundantly.
[0053]
It is determined according to the set input mode whether to input data of numerals, Roman letters, or symbols when one input key 16a-j is operated. Here, the input mode refers to the character type of the input data, and in this embodiment, the input mode can be set to four types of character types: numbers, kana characters, kanji (hereinafter referred to as kana-kanji), alphabetic characters, and symbols. It is. For example, when the input key 16a is operated, the numeral “1” is input when the input mode is set to the number mode, and the Roman letter “E” and the Roman letter “B” are input when the input mode is set to the kana-kanji mode. To do. In the Kana-Kanji mode, a method for specifying the key intended by the input person from the multiple assigned keys will be described later.
[0054]
In this embodiment, the input of alphabetic characters such as “JAPAN” and symbols such as “÷” and “〒” is performed by selecting a desired key or candidate from the display on the liquid crystal display 14. This input method will be described later.
[0055]
The input keys 16a to 16j are mainly used for inputting character data, and the movement keys 18a and 18b are mainly used for selecting options and conversion candidates. In this embodiment, these keys are It is also used when executing the contents of options selected according to the above and determining conversion candidates. This point will also be described later.
[0056]
The liquid crystal display 14 as a display device will be described with reference to FIG. The liquid crystal display 14 includes a menu selection unit 14a and a liquid crystal display unit 14b. Menus prepared by the small information terminal 12 are displayed on the menu selection unit 14a using icons. This menu includes creation and editing of text, creation and modification of address book, creation and modification of schedule table, transmission / reception of e-mail, execution of calculation, input of image, and the like. When one menu is selected from these menus, each menu can be executed.
[0057]
When a menu related to creation of character / symbol data is selected from the menu selection unit 14a, an initial display screen (not shown) of the selected menu is first displayed on the liquid crystal display unit 14b. When selection is made to input character / symbol data from this initial display screen, a data input start screen (hereinafter referred to as an input start screen) as shown in FIG. 3 is displayed on the liquid crystal display unit 14b.
[0058]
The liquid crystal display unit 14 b is divided into a data input area 27 and a text development area 26. The data input area 27 is an area for displaying a process until character / symbol data is input to the small information terminal 12 and is managed by a data input program recorded in the input ROM 36. The text development area 26 is an area for displaying a set of character / symbol data input to the small information terminal 12 as a document, and is managed by an execution program for each menu recorded in the control ROM 42.
[0059]
The data input area 27 has the following three areas. A selection element display area 28 for displaying elements that need to be selected before inputting character / symbol data, an input data display area 30 for displaying character / symbol data input to the small information terminal 12, and an input This is an input mode display area 32 for displaying the character type of the character data.
[0060]
The elements displayed in the selected element display area 28 include (1) an option for determining the data to be input and the form of the input data (hereinafter referred to as an option for the function), and (2) a description later. Conversion candidates extracted as a result of the data conversion processing to be performed are included. “Functions for determining the input data and the form of the input data” include, for example, a mode switching function for changing the input mode, a function for deleting a key code that has already been input (hereinafter, one-input deletion function) There is a function to delete characters / symbols from already input character / symbol data (hereinafter referred to as single character deletion function), a function to edit already input character / symbol data (hereinafter referred to as editing function), etc. . In the initial input screen of FIG. 3, options for a single character deletion function, a mode switching function, and an editing function are displayed.
[0061]
Selection of an element displayed in the selected element display area 28 is performed by selecting one element from the displayed elements and executing the contents of the selected element. Selection of one element is realized by the user operating the movement keys 18a and 18b to move the position of the reverse display band in which a specific element is reversed and displayed to the position where the desired element is displayed. Is done. For example, in the initial state of data input shown in FIG. 3, the element “waiting for input” is selected. Here, “waiting for input” means that a key code can be input by operating the input keys 16a to 16j.
[0062]
The execution of the contents of the selected element is realized by the user operating one of the input keys 16a to 16j after selecting one element. That is, when any one of the elements displayed in the selected element display area 28 is selected, the input keys 16a to 16j are signals for executing the selected element or selected elements by the operation. A signal instructing to input as a data is output. The selection of the element at the position of the reverse display band is completed by the above key operation.
[0063]
In the present embodiment, when the input mode is set to the alphabet mode by selecting the mode switching function displayed in the selection element display area 28, an alphabetic key arrangement consisting of 26 alphabets is displayed in the right area of the selection element display area 28. To do. By selecting a desired alphabetic character from this alphabetic key arrangement, it is possible to input character data consisting of alphabetic characters. Selection of an alphabetic character is performed by selecting a desired character from the alphabetic key array by operating the movement keys 18a and 18b and then operating any one of the input keys 16a to 16j. Of course, it is possible to select a desired alphabet character by touching the alphabetic key array on the liquid crystal display 14 with a pen or the like.
[0064]
When the input mode is set to the symbol mode by selecting the mode switching function, various symbols stored in advance are displayed in the selection element display area 28 instead of the above-described (2) conversion candidates. Accordingly, in this display, the position of the reverse display band is adjusted to the position where the desired symbol is displayed by operating the movement keys 18a and 18b, and then the operation of any of the input keys 16a to 16j is performed. It is possible to select a symbol at a position and input the selected symbol as symbol data.
[0065]
In this embodiment, when the character / symbol data is transferred to the input data display area 30, the data input to the small information terminal 12 is completed. Of course, without providing the input data display area 30, the character / symbol data may be directly transferred directly to the text development area 26, and the input of data to the small information terminal 12 may be completed at this point.
[0066]
Character / symbol data is input to the small information terminal 12 by the hardware configured as described above, and a text composed of the input data is created. A processing procedure of processing (hereinafter referred to as text creation processing) executed in the process of creating the text will be described with reference to FIG. FIG. 5 is a flowchart showing a text creation processing routine. When an instruction to execute the data creation process is given, the input start screen shown in FIG. 3 is displayed (step S100), and the input mode is set (step S110).
[0067]
In this embodiment, in the initial input stage, the input mode is set to Kana-Kanji, and the input mode is displayed as “Kana” in the input mode display area 32 according to this setting. This is shown in FIG. To change the mode setting, the user selects “from among the options for the function among the elements displayed in the selected element display area mode 28 by using the movement keys 18 a and 18 b and any one of the input keys 16 a to 16 j. This is done by selecting “mode switching”.
[0068]
Next, key signals from the input keys 16a to 16j are input (step S120), the input key signals are converted into character / symbol data (step S130), and the converted data is determined (step S140). A process for inputting the confirmed data is performed (step S150). Details of this series of processing will be described later.
[0069]
Next, it is determined whether or not an editing function is designated for the input data (step S160). If there is a designation, data editing processing is performed (step S170). The edit function is designated by the user selecting “edit” from the options for the function displayed in the selected element display area mode 28 using the movement keys 18a and 18b, and the selected element is selected along with this selection. This is performed by selecting one function from the editing functions displayed in the display area mode 28. As each editing function, it is possible to select functions such as cutting, pasting, copying, and specifying a range of input data, and an editing process corresponding to the contents of these editing functions is executed.
[0070]
If the editing function is not specified or the data editing process is finished, it is determined whether or not the input mode has been changed (step S190). If the input mode has been changed, the process proceeds to step S110. Return and repeat the above process. If the input mode has not been changed, it is determined whether or not a new key signal has been input (step S190), and as long as the key signal has been input, the process returns to step S120 and the above processing is repeated. If no new key signal is input, the text creation process is terminated by inputting a predetermined end instruction.
[0071]
Details of a series of processing from step S120 to step S150 in FIG. 5 will be described with reference to a flowchart showing a data conversion / input routine in FIG. First, processing is performed to determine what the input mode set in step S110 is (step S200). If it is determined that the set input mode is a symbol, symbol candidates are displayed in the selected element display area 28 (step S270). If it is determined that the set input mode is alphabetic, first, processing for displaying an alphabetic key arrangement on the right side of the selected element display area 28 is performed (step S205). When an alphabetic key layout is displayed or when it is determined in step S200 that the input mode is Kana-Kanji or a number, the displayed alphabetic key or input keys 16a to j are waited for and the corresponding key is operated. The key code to be input is input (step S210), and data is specified from the input key code (step S220). The data specified in this way is hereinafter referred to as conversion target data. If it is determined that the set input mode is alphabetic,
Key codes from 01 to 10 are assigned to the input keys 16a to 16j, respectively. For example, when the input key 16f and the input key 16a are operated in order, the conversion target data is specified as “06, 01”.
[0072]
Next, when the input mode is a number or an alphabet, the specified conversion target data is converted into a number or an alphabet (step S230). When the input mode is “Kana-Kanji”, the specified conversion target is converted. Data is converted into Roman characters (step S240). This conversion is performed with reference to “key → character information” stored in the key table. “Key → character information” is a map that defines the correspondence between keys and characters. For example, for the input key 16a, “1” is defined as a number corresponding to the key code “001”, and “E” or “B” is defined as a Roman character. Therefore, the conversion target data identified as “006, 001” as in the previous example is converted into one number data “61” in the number mode, and “UE”, “UB” in the kana-kanji mode. , “TE” or “TB” are converted into four types of Roman character data.
[0073]
If the input mode is Kana-Kanji, the converted Roman character data is further converted into Kana character data (step S250). This conversion is performed with reference to “Roman character → Kana character information” stored in the Kana dictionary. “Romaji → Kana character information” is a map that defines the correspondence between Roman characters and Kana characters. For example, “U”, “E” and “Te” are defined as kana characters corresponding to the Roman character data “U”, “E” and “TE” of “UE” as in the previous example. Therefore, the Roman character data converted into “UE” and “TE” as in the previous example is converted into character data “up” and “te”, respectively.
[0074]
It should be noted that the four types of romaji data “UE”, “UB”, “TE”, or “TB”, regardless of whether or not the kana characters corresponding to these are defined as “romaji → kana character information”, It is temporarily stored in a predetermined area of the input RAM 38. Later, the data “B” converted to Romaji based on the operation of the input key 16a is deleted, or the key code of the key to which the vowel is assigned such as the input keys 16a, 16b, etc. This is because it may be possible to convert this.
[0075]
The kana character data thus converted is converted into kanji data with reference to the kanji dictionary (step S260). The kanji dictionary is composed of a dictionary main body storing an index corresponding to 50 kana characters and kanji information corresponding to each word composed of kana characters. In addition to kanji character information, the dictionary body also stores grammatical information for each word, such as kana characters and kanji characters, parts of speech for each word, independent words and adjunct words, connectability and meaning of each word, etc. Has been. Therefore, conversion in phrase units is possible. For example, in the previous example, when the input keys 16c and 16d are operated after the input keys 16f and 16a and converted into kana character data obtained by adding “ga” to “up” and “te”, the kana character data Can be converted into kanji kana-mixed data of the phrase unit “upper” or “hand”. Of course, it is possible to store information on the connectability of each clause and to convert multiple clauses at once.
[0076]
In addition, the Roman character data that could not be converted into kana character data such as “UB” or “TB” in the previous example is not subjected to the conversion process to kanji in step S260. Therefore, it is not necessary to refer to the kanji dictionary for all the data converted into romaji, and the processing related to dictionary search can be performed quickly.
[0077]
Next, all the kanji data that can be converted into kanji are displayed as conversion candidates in the selected element display area 28 (step S270). In the previous example, kanji data “up”, “hunger” and “hand” are displayed.
[0078]
Next, it is determined whether or not one candidate is selected from the candidates displayed in the selected element display area 28 (step S280). If it is determined that the candidate is selected, the selected one candidate is input. This is confirmed as data, this data is input (step S290), and the process proceeds to the next process. In the case where the input mode is a number, for the data converted into a number, this data is determined as input data and input as it is (steps S230 to S290). Therefore, data can be input quickly without displaying conversion candidates in the selected element display area 28.
[0079]
When the input mode is English, the input data can be determined for the data converted to English by performing the conversion process in step S230 as follows. That is, after conversion to alphabetic data in step S230, all of a plurality of alphabetic data are displayed as conversion candidates in the selected element display area 28, and one candidate selected from these conversion candidates is determined as input data. do it. Of course, only one of the plurality of alphabetic data may be displayed in the selection element display area 28, and alphabetic data other than the one data may be displayed by operating the movement keys 18a and 18b. By doing so, it is possible to display all the alphabetic data “UE”, “UB”, “TE” and “TB” in the previous example, and it is possible to select desired data from these. In addition, the conversion data can be specified in units of characters in step S220, and conversion candidates for each character can be displayed in step S230. In such a configuration, a desired alphabetic character can be easily selected by sequentially displaying a plurality of alphabetic characters assigned to the key each time the displayed alphabetic key is operated once. Note that description of the above processing is omitted in FIG.
[0080]
The text creation processing routine has been described above with reference to FIGS. 5 and 6. Next, display processing performed in the course of such text creation processing will be described. First, the characteristics of the display processing in this embodiment will be described with reference to the block diagram of FIG. FIG. 7 shows a module configuration when the entire text creation process is divided into modules.
[0081]
The text creation process includes four modules: a data conversion module CH, a data input module IN, a data editing module ED, and a display module DP. The data conversion module CH converts the conversion target data into data such as numbers, alphabetic characters, kana characters, kanji characters, kana characters, symbols, etc., determines the converted data, and passes it to the data input module IN. The data input module IN inputs the confirmed data. On the other hand, when the data input module IN receives data obtained by editing the data already input from the data editing module ED, the data input module IN inputs the edited data.
[0082]
In the display module DP, until the input data is determined, the function display process DP1 for displaying options for determining the form of the input data and the data candidates when the conversion target data is converted are displayed. After the candidate data display process DP2 has confirmed the input data, a function display process DP3 that displays options for determining the form of the input data and an input data display process DP4 that displays the input data are performed. It is. The contents of these processes are uniformly managed by the display control program DPM stored in the input ROM 36.
[0083]
Accordingly, the result of the processing performed in the data conversion module KC or the data input module IN is first passed to the display control program DPM, which displays the function display processing DP1 and the candidate data display according to the received result. The contents of the process DP2 or the function display process DP3 and the input data display process DP4 are determined and instructed.
[0084]
Further, the display control program DPM receives data confirmation from the data input module IN and determines the contents of the processes in the function display process DP1 and the function display process DP3.
[0085]
FIG. 8 shows the configuration of each functional unit that executes the display control program DPM. First, when an instruction to execute text creation is given, the instruction is passed to the display function determination unit 90. The display function determination unit 90 determines which option to be displayed in the selection element display area 28 among the options for the functions described above.
[0086]
The contents of the choices to be displayed determined in this way are passed to the display area management unit 91. The display area management unit 91 is a functional unit that manages an area in which selections for functions are displayed in the selected element display area 28 and an area in which data as conversion candidates is displayed. Accordingly, the display area management unit 91 first passes the contents of the options to be displayed received from the display function determination unit 90 to the function area determination unit 92. In response to this, the function area determination unit 92 determines a display area of options for functions in the selection element display area 28. This determination content is passed to the candidate area determination unit 95 through the display area management unit 91. The candidate area determination unit 95 determines an area other than the option display area for the function in the selected element display area 28 as the conversion candidate display area. The aforementioned input start screen of FIG. 3 is displayed through such a process.
[0087]
Even when the input keys 16a to 16j are operated after the text creation process is started, the fact that the key code is input is passed to the display function determination unit 90 through the key code recognition unit 86, and the same as described above. The method again determines the functions and candidate display areas in the selected element display area 28.
[0088]
In the display area thus determined, the function display unit 93 and the candidate data display unit 96 display the options and conversion candidates for the functions, respectively, and display information about the display contents and display positions of the options and conversion candidates, respectively. The function buffer 94 and the candidate data buffer 97 are temporarily stored. When one option or conversion candidate is selected from the displayed options or conversion candidates, first, the selection is sent to the reverse display band recognition unit 83. In this embodiment, the reverse display band can be freely moved between the option for the function and the conversion candidate. The reverse display band recognition unit 83 grasps the position information of the reverse display band in the selection element display area 28 and sends this position information to the selection function recognition unit 84 or the selection candidate recognition unit 87.
[0089]
The selection function recognition unit 84 or the selection candidate recognition unit 87 refers to the display function buffer 94 and the candidate data buffer 97, recognizes the content of the selected function and conversion candidate, and selects execution of the content of the selected function. The function execution unit 85 is instructed or the selected conversion candidate data is sent to the confirmed data input unit 89 through the data confirmation unit 88.
[0090]
When the confirmation data input unit 89 receives the conversion candidate data, it notifies the display function determination unit 90 to that effect. Upon receiving the notification, the display function determination unit 90 again determines the function and candidate display area in the selected element display area 28 in the same manner as described above.
[0091]
The procedure and contents of such characteristic display processing executed by each functional unit will be described. First, the display processing routine A in FIG. 9 shows the procedure of the display processing when the input keys 16a to 16j are operated after the text creation processing is started. This process is a process executed in the key signal input process in step S120 of FIG.
[0092]
When this routine is activated, it is first determined whether or not a key code has been input from the input keys 16a to 16j (step S300). When a key code is input, the option for the mode switching function displayed on the input start screen is hidden (step S310), and the option for the one-character deletion function is selected for the one-input deletion function. Is displayed (step S320), and the process proceeds to the next process such as the subsequent key code input.
[0093]
A mode of display on the liquid crystal display 14 performed based on such display processing routine A is shown in FIG. In addition, the display examples described below are described assuming the case of inputting kanji / kana mixed data “It is hot summer”. When the input key 16 a is operated from the input display screen shown in FIG. 3, the screen shown in FIG. 10 is displayed on the liquid crystal display 14.
[0094]
That is, above the selected element display area 28, the “mode switching” option that has been displayed so far is not displayed, and the “delete one character” option is displayed instead of the “delete one character” option. The Therefore, the number of options for the function is reduced from four to two by the operation of the input key 16a. Subsequent to the display of options for these functions, conversion candidates for “A”, which is the character corresponding to the input key 16a, are displayed. At this time, the position of the reverse display band is held at the position of the option for the input waiting function.
[0095]
Next, display processing in the case where the input keys 16a to 16j are erroneously operated and the error is corrected before conversion into kanji or the like will be described. FIG. 11 shows a display example of conversion candidates based on an erroneous key operation. In order to input character data “hot”, it is necessary to operate the input keys 16d, 16f, 16f, and 16e in this order to input Roman character data “ATUI”. On the other hand, FIG. 11 shows a display on the liquid crystal display 14 when the keys are operated in the order of the input keys 16d, 16f, 16a, 16g, and 16d. As a result of the key operation, “atana” is extracted as data that can be converted into kana characters, and “atena” and “address” are displayed as conversion candidates.
[0096]
A display processing routine from the display state as shown in FIG. 11 until the key code input by mistake is removed and the key code based on the correct input key is input is shown in the display processing routine B of FIG. This process is a process executed in the key signal input process in step S120 of FIG.
[0097]
This routine starts when a key code is input from the input keys 16a to 16j. After the activation, it is first determined whether or not an option for the one-input deletion function has been selected by operating the movement key 18a (step S400). FIG. 13 shows a display screen when this option is selected.
[0098]
If it is determined that the option for the one-input deletion function has been selected, it is determined again whether or not the movement key 18a has been operated (step S410). In other words, in this embodiment, the options for the one-input deletion function are displayed at the top of the selection element display area 28. Therefore, even if the movement key 18a is operated from the state shown in FIG. 13, the reverse display band does not move, and other functions cannot be selected. Therefore, in such a case, it is assumed that “the operation of the movement key 18a corresponds to an instruction to execute the selected one-input deletion function”. Note that the processing in step S410 may be processing for determining whether or not any of the input keys 16a to 16j has been operated as described above.
[0099]
If it is determined that the movement key 18a has not been operated, the process returns to step S400, and it is determined whether or not an option for the one-input deletion function has been selected. If it is determined that the movement key 18a is operated, the key code input based on the operation of the latest input keys 16a to 16j is deleted, and the conversion candidates when deleted are displayed (step S420). Further, the reverse display band is displayed at the position of the “input waiting” option (step S430).
[0100]
Next, it is determined whether or not selection of an option for the one-input deletion function has been made again by operating the movement key 18a again (step S440). If an option for the one-input deletion function has been selected, the processing from step S410 described above is repeated.
[0101]
If it is determined that the option for the one-input deletion function has not been selected, it is determined whether or not the input keys 16a to 16j have been operated (step S450). At this time, since the choice of “waiting for input” is selected, the input keys 16a to 16j output signals for inputting characters assigned to the keys by the operation. Accordingly, when it is determined that the input keys 16a to j are operated, the key code of the operated input keys 16a to 16j is added after the key code that has been input so far, and the key code is input. The input conversion candidates are displayed (step S460), and the process returns to step S440.
[0102]
If it is determined that the input keys 16a to j are not operated, it is determined whether or not a conversion candidate is selected (step S470). If no conversion candidate is selected, the process proceeds to step S440. Return and repeat the above process. If it is determined that a conversion candidate has been selected, the selected conversion candidate is confirmed as input data, displayed in the data input area 30 (step S480), and the process proceeds to the next process.
[0103]
In this routine, an option for the one-input deletion function is displayed at the top of the selection element display area 28, thereby creating a state in which the reverse display band cannot be moved based on the operation of the movement key 18a. However, this state can also be created by other methods. For example, a configuration in which the reverse display band is allowed to move is conceivable only when the movement key 18a is operated together with the shift key or when the movement key 18a is pressed twice within a predetermined period. In such a case, it is not always necessary to display the option for the one-input deletion function at the top of the selection element display area 28.
[0104]
The manner of display on the liquid crystal display 14 based on the display processing routine B is shown in FIGS. First, from the display screen when an erroneous key operation shown in FIG. 11 is performed, the movement key 18a is operated to select “delete one input” in the selection element display area 28. In order to correct the error, first, it is necessary to delete the three key codes input by operating the input keys (16a, 16g, 16d) made after the third key. Therefore, the movement key 18a is first operated once in a state where “delete one input” is selected. The state of display on the liquid crystal display 14 after this operation is shown in FIG. In FIG. 14, the key code based on the input key 16d that has been operated fifth is deleted, and “Aten” that is a conversion candidate when the four input keys 16d, 16f, 16a, and 16g are operated. And “Hit” are displayed in the selected element display area 28. At this time, the reverse display band moves from the “delete one input” position and is displayed at the “input waiting” position.
[0105]
Next, when the movement key 18a is continuously operated four times, the key code based on the remaining two input keys (16a, 16g) is deleted. That is, the position of the reverse display band is moved from “waiting for input” to “delete one input” by the first operation, and the key code based on the input key 16 g operated fourth is deleted by the second operation. . The effects of the third and fourth operations are the same as those of the first and second operations. Accordingly, the input key code can be deleted continuously by operating only one type of key.
[0106]
FIG. 15 shows a display state on the liquid crystal display 14 when the movement key 18a is operated four times in succession. Since the key code input at this stage is only based on the operation of the input keys 16d and 16f, conversion into kana characters is possible in the combination of the Roman letter “A” and the Roman letter “U” or “T”. “Au”, “Fit”, etc., which are various data, are displayed in the selected element display area 28 as conversion candidates.
[0107]
When the input keys 16f and 16e are operated in this order from this state, the key code based on these key operations is added after the key code based on the input keys 16d and 16f already input. Is converted into Roman character data “ATUI”. As a result, conversion candidates including desired character data such as “hot”, “thick”, and “hot” are displayed in the selection element display area 28.
[0108]
Next, on this display screen, the movement key 18b is operated to move the position of the reverse display band to the position of the conversion candidate “hot”. A mode of display on the liquid crystal display 14 at this time is shown in FIG. When any of the input keys 16a to 16j is operated from this state, a conversion candidate “hot” is input as character data. Display processing executed after any of the input keys 16a to 16j is operated will be described based on the display processing routine C of FIG. This routine shows details of the display processing in step S480 in FIG. 12, and is activated when a conversion candidate is selected.
[0109]
When this routine is started, first, a process of displaying the selected conversion candidate in the input data display area 27 is performed (step S500). Next, the storage data related to the conversion candidate is deleted from the candidate data buffer 97, and the display of the conversion candidate in the selected element display area 28 is cleared (step S510). Next, the same option as the option displayed on the input start screen shown in FIG. 3 is displayed in the selected element display area 28 (step S520), and the process proceeds to the next process. Therefore, after the character / symbol data is input, a function such as deletion of the input data or execution of editing, or determination of a character type to be input by operating the input keys 16a to 16j from now on is easily selected. be able to.
[0110]
A mode of display on the liquid crystal display 14 based on such a display processing routine C is shown in FIGS. When one of the input keys 16a to 16j is operated from the state of FIG. 16 in which the position of the reverse display band is moved to the position of the desired conversion candidate “hot”, the conversion candidate “hot” is set as the definite data. The data is input and displayed in the input data display area 27. At this time, the conversion candidates displayed as “hot” or “thick” are deleted, and the selection element display area 28 is replaced with the “delete one input” option displayed so far. The “delete one character” option is displayed, and the “switch mode” and “edit” options that were not displayed are displayed.
[0111]
According to the one-handed keyboard 10 of the first embodiment, the conversion target data specified by the key signals from the input keys 16a to 16j is converted into character / symbol data while setting the input mode and deleting the input key code. And input to the small information terminal 12. Prior to this input, the converted conversion candidates are displayed in the selection element display area 28 of the liquid crystal display 14 so as to be selectable together with options for functions such as setting the input mode and deleting the input key code.
[0112]
Therefore, since the option for the function can be selected from the display on the liquid crystal display 14, it is necessary to provide a separate function key in order to select or execute the function such as setting the input mode or deleting the input key code. There is no key and the number of keys can be reduced. As a result, a key for data input can be easily arranged on a portable or small-sized device.
[0113]
In addition, both options and conversion candidates for the function are displayed in the selected element display area 28. Therefore, it is not necessary to specify the display area of the liquid crystal display 14 according to the selection target, it is easy to select both options and conversion candidates, and it is not necessary to provide a function key for specifying the display area.
[0114]
In the first embodiment, selection of options for functions and selection of conversion candidates are both performed by operating the same movement keys 18a and 18b. Therefore, the number of keys can be reduced by sharing the keys, and the operation by the user is simplified.
[0115]
Further, when conversion candidates are displayed, options for a function such as “delete one input” can be selected. Therefore, even after the conversion candidate is displayed, the desired input data can be easily determined simply by performing a selection operation from the selection element display area 28. In addition, only the displayed movement keys 18a and 18b are operated so that the reverse display band freely moves between the function option and the conversion candidate, so that the option and the conversion candidate are sequentially selected with one key operation. This makes it possible to further reduce the operation labor associated with the selection from the display on the liquid crystal display 14.
[0116]
In the first embodiment, it is specified that the specified conversion target data does not exist (for example, when no key code is input from the input keys 16a to 16j or immediately after the input of character / symbol data). When the data to be converted exists, the options for the function are displayed in different modes. Accordingly, the number of options displayed in the selection element display area 28 is reduced, and the workability associated with selection of options is improved.
[0117]
In the first embodiment, for the “deletion of one input” option displayed at the top of the selection element display area 28, selection of the option and execution of the content of the option are realized by operating the same movement key 18a. . Therefore, it is possible to easily move from “operation for selecting an option” to “operation for executing the contents of the selected option”, and it is easy to delete the conversion target data. In addition, after the deletion of data is executed, the position of the reverse display band is moved to the “waiting for input” position, so that it is possible to easily grasp that the state has returned to the state where data input is possible. Furthermore, since the “waiting for input” option is displayed next to the “delete one input” option, the conversion target data can be deleted continuously by the continuous operation of the movement key 18a.
[0118]
In the present embodiment, the one-handed keyboard 10 and the small information terminal 12 are connected by a connection cord. However, the present invention is not limited to this configuration, and the one-handed keyboard 10 may be a part of the small information terminal 12. Further, by executing the display program, the same key as that of the one-handed keyboard 10 may be displayed on the liquid crystal display 14, and the displayed key may be touched with a pen or the like to input character / symbol data. In the case of adopting such a configuration, it is preferable to change and display the characters / symbols assigned to the input keys in accordance with the switching of the input mode. For example, when the Kana-Kanji mode is switched to the English mode, if the 19-letter overlapping assignment to the input key is changed to the 26-letter overlapping assignment display, smoother English input can be realized. it can.
[0119]
In the above, the one-handed keyboard 10 which is 1st Example of this invention was demonstrated. Next, a mobile phone 70 according to a second embodiment of the present invention will be described. FIG. 19 shows the appearance of the mobile phone 70. The mobile phone 70 includes 15 push buttons and a display 74. Fifteen push buttons are arranged in the input unit 72 in five vertical rows and three horizontal rows. Each push button from the second row to the fifth row has “0” to “9” necessary for dial transmission. The numbers up to “” and the symbols “* (asterisk)” and “# (sharp)” are assigned.
[0120]
The push buttons in the first row from the top are a call button 75a for starting input of a call dial signal, a power button 75c for turning on / off the mobile phone 70, and a menu button 75b for selecting various menus. . The cellular phone 70 is prepared to execute various menus such as creation and transmission / reception of e-mails and creation / registration of an address book in addition to dial calls. These menus are selected by operating the menu button 75b. The Since all of these menus require the creation of data, in the cellular phone 70 of this embodiment, as the data input keys 76a to 76j for inputting character / symbol data to each push button. A role is also granted. In other words, pushbuttons assigned numbers from “0” to “9” have three symbols, “,” (comma), “.” (Period), and “-” (hyphen), in 19 letters of the alphabet. The added 29 types of characters / codes are assigned to one or more push buttons. Accordingly, when the push button is operated as the data input keys 76a to 76j, data of Roman letters, symbols, and numbers assigned to the buttons can be input.
[0121]
The push buttons to which the symbols “*” and “#” are assigned function as movement keys 78 a and 78 b for selecting an option displayed on the display 74 when inputting character / symbol data. That is, “↑” and “↓” are displayed on each push button, and this operation moves the position of the reverse display band for selecting the selection target in the vertical direction.
[0122]
The same characters and symbols as the input keys 16a to 16j of the first embodiment are assigned to the data input keys 76a to 76j, respectively. Therefore, the layout of the data input keys 76a-j and the movement keys 78a, 78b from the second column to the fifth column is the same as the layout of the input keys 16a-j and the movement keys 18a, 18b in the one-handed keyboard 10 of the first embodiment. It is the same thing.
[0123]
In the electronic mail function, it is necessary to select a number of processes such as deleting transmitted / received mails, replying / forwarding received mails, and displaying delivery results of transmitted mails. This selection can also be made by operating the menu button 75b and the movement keys 78a, 78b, etc. However, if the auxiliary button 73 shown by the dotted line is provided, the above processing can be selected more quickly and easily. .
[0124]
A display mode on the display 74 when the mail document is created is shown in FIG. This display screen is a creation start screen that is displayed when the creation menu of the e-mail document is selected by operating the menu button 75b.
[0125]
The configuration of this screen is substantially the same as the input start screen of the first embodiment shown in FIG. That is, the input mode display area 81, the data expansion area 79, and the selection element display area 80 on the display screen shown in FIG. 20 correspond to the input mode display area 32, the text expansion area 26, and the selection element display area 28 of FIG. Is.
[0126]
In the guide display area 77, the contents of processing executed when the menu button 75b is operated are displayed. In the example shown in FIG. 20 (“menu → send”), the process of sending the created document is executed by operating the menu button 75b. In the second embodiment, since the input data is transferred to the data development area 79 at the same time as confirmation, an area corresponding to the input data display area 30 of the first embodiment is not provided. Of course, a region corresponding to this may be provided.
[0127]
The mobile phone 70 has substantially the same configuration as the hardware included in the small information terminal 12 in the first embodiment. That is, the cellular phone 70 includes a computer including a CPU, a ROM, a RAM, and the like, and the ROM includes a control ROM 42, a dictionary ROM 48, a text creation program written in the input ROM 34, and a display. The same program and reference data as the control program and reference data are written. Therefore, when the e-mail creation menu is selected on the mobile phone 70, a mail document creation program is started based on the execution command of the CPU, and by executing this program, the same document creation processing as in the first embodiment is performed. And display control processing is executed.
[0128]
Accordingly, the processes shown in the text creation processing routine of FIG. 5, the data conversion / input routine of FIG. 6, and the display processing routines of FIGS. 9, 12, and 17 are also performed in the mobile phone 70 of the second embodiment. That is, according to the cellular phone 70 of the second embodiment, the conversion target data specified by the key signals from the data input keys 76a to 76j is changed to the character while setting the input mode and deleting the input key code.・ Convert to symbol data and input. Prior to this input, the converted conversion candidates are displayed in the selection element display area 80 of the display 74 so as to be selectable together with options for functions such as setting the input mode and deleting the input key code.
[0129]
Therefore, since the option for the function can be selected from the display 74, it is necessary to provide a separate function operation button in order to select or execute the function such as setting the input mode or deleting the input key code. Therefore, the number of buttons disposed in the input unit 72 can be reduced. Therefore, it is not necessary to newly provide a large number of buttons in order to realize a data creation function such as creation of a mail document in addition to the call function. As a result, the area of the input unit 72 on the front surface of the mobile phone 70 can be reduced, and the display 74 can be enlarged correspondingly, and data can be input in an easy-to-see environment.
[0130]
In the one-handed keyboard 10 of the first embodiment and the mobile phone 70 of the second embodiment described above, nineteen alphabetic characters are assigned to ten input keys, but other characters, for example, an unassigned alphabet It may be a configuration in which 7 characters are assigned in addition to 19 alphabetic characters. If the above seven alphabets are also assigned, it is possible to input Kana-Kanji data and English data using the same input keys 16a to 16j. In this case, it is also preferable to display the seven alphabets used only when inputting English letters on the key tops of the input keys 16a to 16j in a manner distinguishable from the nineteen alphabets used when inputting kana-kanji. . In this way, it is possible to grasp the key to be used for data input in correspondence with the set input mode. As a result, easy and accurate key operation is ensured even when inputting data in which Kana-Kanji and English characters are mixed.
[0131]
It is also possible to assign a smaller number of characters than the 19 alphabetic characters. Furthermore, the redundantly assigned characters are not limited to symbols indicating punctuation marks such as Roman characters, commas, and periods, and may be configured to assign symbols that are generally used when creating Japanese text such as parentheses, for example. .
[0132]
It is also possible to connect the one-handed keyboard 10 of the first embodiment to a device other than the small information terminal 12, or to provide the input unit 72 of the second embodiment on a device other than the mobile phone 70. This device may be any device that needs to input the created data. For example, a ticket issuing device such as a business computer, a desktop personal computer, a notebook personal computer, a word processor, an electronic notebook, a bank ATM, a train ticket or a horse ticket , Security devices, home appliances such as TVs and refrigerators, various vending machines, karaoke devices, registers, order input devices, FAX, copy devices, game devices, personal information input devices, authenticity of contracts, etc. are required A device for creating and transmitting / receiving documents can be considered. When the one-handed keyboard 10 is connected to each of these devices, it is not necessary to provide hardware such as a CPU, a ROM, and a RAM for executing data creation processing on each device, but on the one-handed keyboard 10 side. May be.
[0133]
In the first and second embodiments described above, a program and reference data relating to execution of document creation and editing and input of character / symbol data are stored in a recording medium such as the control ROM 42 or the input ROM 36. This recording medium stores programs and reference data in a computer-readable form. Therefore, if the apparatus includes a computer including a CPU, a ROM, a RAM, and the like, all the processes described in the first embodiment can be executed by loading the storage contents of the recording medium. Therefore, the embodiment of the present invention can be a medium on which the above-described text creation program, display control program, and data to be referred to when executing this program are recorded. According to this recording medium, a program recorded on this medium is supplied to a device with a built-in computer, so that even a portable or small device with a small space for arranging keys can use a large number of character types. It is possible to easily provide character / symbol data input means.
[0134]
Further, the recording medium need not record all of the text creation program, the display control program, and the reference data described above, and records the display control program and data that is referred to when the program is executed, or Only data referred to when executing the display control program may be recorded. Even in such a storage medium storing a part of programs and reference data, by loading a program or reference data other than the stored program into an apparatus equipped with a computer using another method. The same text creation processing and display control processing as described in the first embodiment can be realized. For example, each processing such as data conversion processing and mode setting processing shown in FIG. 5 is executed by a program in the operating system, reference data, or another application program, and the display control processing program or reference data related to this program is transmitted to the device driver. The method of supplying in the form of can be considered.
[0135]
Although the embodiments of the present invention have been described based on the examples, the present invention is not limited to these examples, and can be implemented in various modes without departing from the gist of the present invention. Of course.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an external appearance of a one-handed keyboard that is a first embodiment of the present invention;
FIG. 2 is an explanatory diagram showing a state in which the one-handed keyboard of the first embodiment is connected to a small information terminal.
FIG. 3 is an explanatory diagram showing a state in which a character / symbol data input start screen is displayed on the liquid crystal display;
FIG. 4 is a block diagram showing a hardware configuration for realizing input of character / symbol data using a one-handed keyboard.
FIG. 5 is a flowchart showing a text creation processing routine.
FIG. 6 is a flowchart showing a data conversion / input routine.
FIG. 7 is a block diagram illustrating a module configuration for text creation processing;
FIG. 8 is an explanatory diagram showing a configuration of each functional unit that executes a display control program;
FIG. 9 is a flowchart showing a display processing routine A.
FIG. 10 is an explanatory diagram showing a manner of display on a liquid crystal display based on a display processing routine A.
FIG. 11 is an explanatory diagram illustrating a display example of conversion candidates based on an erroneous key operation.
FIG. 12 is a flowchart showing a display processing routine B;
FIG. 13 is an explanatory diagram showing a display on the liquid crystal display when an option for the one-input deletion function is selected.
FIG. 14 is an explanatory diagram showing a state of display on the liquid crystal display after the movement key 18a is operated once with “one input deletion” selected.
FIG. 15 is an explanatory diagram showing a state of display on the liquid crystal display when all erroneous key inputs are deleted.
FIG. 16 is an explanatory diagram showing a display mode of the liquid crystal display when the position of the reverse display band is moved to the position of a desired conversion candidate.
FIG. 17 is a flowchart showing a display processing routine C;
FIG. 18 is an explanatory diagram showing a manner of display on the liquid crystal display 14 based on the display processing routine C.
FIG. 19 is an explanatory diagram showing an appearance of a mobile phone as a second embodiment of the present invention.
FIG. 20 is an explanatory diagram showing a display mode on the display 74 when a mail document is created.
[Explanation of symbols]
10 ... One-handed keyboard
12 ... Small information terminal
14 ... Liquid crystal display
14a ... Menu selection section
14b ... Liquid crystal display
16a-j ... Input keys
18a ... Move key
18b ... Move key
20 ... Input data transfer key
22 ... Input data cancel key
24 ... Help key
26 ... Text expansion area
27 ... Data input area
28 ... Selected element display area
30 ... Input data display area
32 ... Input mode display area
34 ... CPU
35 ... Bus
36 ... Input ROM
38 ... Input RAM
40 ... Input interface
42 ... Control ROM
44 ... Control RAM
46 ... Display controller
48 ... Dictionary ROM
50 ... Serial I / O interface
52 ... Output interface
54 ... Printer
56 ... Modem
60 ... Computer
70: Mobile phone
72: Input section
73 ... Auxiliary button
74 ... Display
75a ... Call button
75b ... Menu button
75c ... Power button
76a to j: Data input keys
77 ... Guide display area
78a ... Move key
78b ... Move key
79 ... Data development area
80 ... Selected element display area
81 ... Input mode display area
83. Reverse display band recognition unit
84 ... Selected function recognition unit
85 ... Selection function execution part
86 ... Key code recognition unit
87 ... Selection candidate recognition unit
88 ... Data confirmation part
89 ... Final data input section
90 ... Display function determination unit
91 ... Display area management section
92. Functional area determination unit
93 ... Function display section
94: Display function buffer
95 ... Candidate area decision section
96 ... Candidate data display section
97: Candidate data buffer

Claims (17)

A data input device that arranges a plurality of keys in a range that can be operated with one hand, specifies data based on the operation of the keys, and inputs the specified data to a predetermined device in a desired form,
Form determining means for determining the form of data input to the predetermined device or the form of input data;
Extraction means for extracting conversion candidates of the identified data;
A candidate display means for selectively displaying the extracted conversion candidates on a predetermined display section;
The candidate display means displays, on the predetermined display section, an option for determining the form of the input data and the conversion candidate between the option and the conversion candidate according to an operation of the key. Is displayed at adjacent positions that can be selected while freely moving,
Options for determining the form of the input data displayed on the display unit include an option for selecting an input deletion function for deleting an already input key code, and an already input character / symbol A data input device comprising either an option for selecting a single character deletion function for deleting a character / symbol from data, or an option for selecting an editing function for editing already input character / symbol data. The data input device according to claim 1, further comprising a selection unit that enables selection of the option when the conversion candidate is displayed by the candidate display unit.   The data input device according to claim 2, wherein the selection unit is a unit that realizes selection of an option displayed by the candidate display unit and selection of the conversion candidate by the same key operation. 4. The data input device according to claim 3, wherein the selection means is a means capable of selecting between the displayed option and the conversion candidate by a continuous operation. The extraction means is means for generating a kana character string from data specified based on an operation of the key, referring to a dictionary for the kana character string, and extracting conversion candidates corresponding to the kana character string. The data input device according to Item 1.   The candidate display means is means for displaying different options as options for determining the form of the input data or the form of the input data according to the presence or absence of data specified based on the operation of the key. The data input device according to claim 1. The data input according to claim 1, further comprising option selection means for realizing the selection of the option displayed at a predetermined position of the display unit and the execution of the content of the selected option by the same operation. apparatus. The data input device according to claim 7, wherein
The form determining means is a data deleting means for determining the form of data input to the predetermined device by deleting at least part of the data specified by operating the key,
The candidate display means is a means for displaying an option for deleting at least a part of the specified data on the predetermined display section so as to be selectable together with the conversion candidate.
For the option for deletion displayed at the position where the first option on the display unit is to be displayed, the option selection means performs the same operation for selecting the option for deletion and executing the deletion of data. A data input device which is means realized by the above. The data input device according to claim 8, wherein
The candidate display means is means for displaying an option indicating a state of allowing data input by operating the key together with an option for deleting at least a part of the identified data,
After the option for deletion is selected and the deletion of data is executed, the designation display means for specifying the option for allowing the input of the data and displaying that the option is selected in a visible manner A data input device comprising: 10. The data according to claim 9, wherein the candidate display means is a means for displaying an option indicating a state allowing data input by operating the key at a position adjacent to a position where the option for deletion is displayed. Input device. The data input device according to claim 1,
The form determining means is a mode switching means for determining the form of data input to the predetermined device by switching the data input mode specified by operating the key.
The candidate display means is a data input device which is a means for displaying, on the predetermined display section, options for switching the input mode so as to be selectable together with the conversion candidates. 12. The data input device according to claim 6, wherein the candidate display means is means for not displaying an option for switching the mode when data specified by operation of the key exists. The data input device according to claim 11, wherein
The mode switching means is means for switching an input mode between input by at least one mode of alphabetic characters and numbers and input by kana characters,
When the key is operated in a state where the mode switching means is switched to either an alphabetic or numeric input mode, the extraction candidate is not extracted by the extracting means, and is specified based on the key operation. A data input device that determines one data from data and inputs the determined data to a predetermined device. It has a plurality of operation buttons for transmitting dial signals for calls by operation, specifies data based on at least some operations of the plurality of operation buttons, and inputs the specified data in a desired form A mobile phone equipped with data input means,
A form deciding means for deciding a form of data inputted by the data input means or a form of inputted data, and an extracting means for extracting conversion candidates of the specified data;
A candidate display means for selectively displaying the extracted conversion candidates on a predetermined display section;
The candidate display means displays options for determining the format of the input data on the predetermined display unit, the conversion candidates, and between the options and the conversion candidates according to the operation of the key. Is displayed at adjacent positions that can be selected while freely moving,
Options for determining the form of the input data displayed on the display unit include an option for selecting an input deletion function for deleting an already input key code, and an already input character / symbol A mobile phone including either an option for selecting a single character deletion function for deleting a character / symbol from data, or an option for selecting an editing function for editing character / symbol data that has already been input. A data input method using a data input device that arranges a plurality of keys in a range that can be operated with one hand, specifies data based on the operation of the keys, and inputs the specified data to a predetermined device in a desired form Because
Determining a form of data input to the predetermined device or a form of input data;
Extracting conversion candidates for the identified data;
On a predetermined display unit, an option for determining the input data and the conversion candidate can be selected while freely moving between the option and the conversion candidate in accordance with an operation of the key. A process of displaying in adjacent positions,
Options for determining the form of the input data displayed on the display unit include an option for selecting an input deletion function for deleting an already input key code, and an already input character / symbol A data input method including either an option for selecting a single character deletion function for deleting a character / symbol from data or an option for selecting an editing function for editing character / symbol data that has already been input. A program for operating a data input device that arranges a plurality of keys in a range that can be operated with one hand, specifies data based on the key operation, and inputs the specified data to a predetermined device in a desired form A recording medium on which
Determining a form of data input to the predetermined device or a form of input data;
Extracting conversion candidates for the identified data;
On a predetermined display unit, an option for determining the form of the input data and the conversion candidate are selected while freely moving between the option and the conversion candidate in accordance with an operation of the key. A step of displaying at a possible adjacent position, and an option for determining the form of the input data displayed on the display unit is a one-input deletion function for deleting a key code that has already been input Select the option to select, the option to delete one character to delete the character / symbol from the already input character / symbol data, and the edit function to edit the already input character / symbol data The recording medium which recorded the program for making a computer perform the process containing either of an option so that a computer could be read. Identify data based on the operation of keys to which multiple data of the same character type are assigned, and extract conversion candidates for the data while determining the input form of the specified data or the form of the input data And a data input device including a computer capable of executing a data input program for displaying the extracted conversion candidates on a predetermined display unit so as to be selectable and inputting the conversion candidates selected in the display as definite data. A recording medium recording a program that can be executed by being installed in the computer,
On a predetermined display unit, an option for determining the form of the input data and the conversion candidate are selected while freely moving between the option and the conversion candidate in accordance with an operation of the key. A step of displaying at a possible adjacent position, and an option for determining the form of the input data displayed on the display unit is a one-input deletion function for deleting a key code that has already been input Select the option to select, the option to delete one character to delete the character / symbol from the already input character / symbol data, and the edit function to edit the already input character / symbol data A recording medium in which a program for causing a computer to execute a process including any of the options is recorded in a computer-readable manner.

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