JP2011134127A - Information processor and key input method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processor having a virtual keyboard with improved operability. <P>SOLUTION: A key input control program 201 selects a virtual key located on a touch area from among a plurality of virtual keys included in the virtual keyboard 151, based on received touch area detection information and key allocation information. When two or more virtual keys are selected, the key input control program 201 determines, for each selected virtual key, a size of an overlapping portion of the selected virtual key and the touch area, and determines the virtual key having the largest overlapping portion as an input virtual key. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention generally relates to an information processing apparatus such as a personal computer, and more particularly to an information processing apparatus and a key input method for inputting key data using a virtual keyboard.

  In recent years, various portable personal computers such as notebook computers have been developed. Many portable personal computers of this type have a keyboard that functions as an input device. Recently, a system using a virtual keyboard displayed on a touch screen display has been developed to support key input by a user.

  Patent Document 1 discloses an input device including a display unit and a touch panel. This input device displays a plurality of keys on the display screen of the display unit. This input device determines whether or not several keys on the display screen are simultaneously pressed based on the area information of the contact position, and when it is determined that several keys are simultaneously pressed, It has a function of enlarging and displaying peripheral keys. The user can select a desired key from among the enlarged keys displayed on the display screen.

JP-A-10-49305

  However, in the technique disclosed in Patent Document 1, when the user accidentally touches two keys, the user needs to perform a touch operation again on the screen on which the enlarged key group is displayed. . This retouch operation is a factor that interrupts the continuous key input operation by the user.

  In a computer, a virtual keyboard is required to have operability that can withstand a large amount of text input, like a normal keyboard (hardware keyboard). Therefore, it is necessary to realize a new function capable of improving the operability of the virtual keyboard.

  The present invention has been made in consideration of the above-described circumstances, and an object thereof is to provide an information processing apparatus and a key input method capable of improving the operability of a virtual keyboard.

  In order to solve the above-described problems, the present invention provides a touch screen display, a virtual keyboard presenting means for presenting a virtual keyboard including a plurality of virtual keys for inputting key codes on the touch screen display, and the plurality of the plurality of virtual keys. Virtual key selection means for selecting one or more virtual keys located in the touch area on the touch screen display from the virtual keys, and when two or more virtual keys are selected by the virtual key selection means, the touch area Code output means for obtaining a size of an overlapping portion between each of the two or more virtual keys and outputting code data corresponding to one of the two or more virtual keys based on the size of the overlapping portion An information processing apparatus comprising:

  According to the present invention, the operability of the virtual keyboard can be improved.

1 is a perspective view showing an appearance of an information processing apparatus according to an embodiment of the present invention. 2 is an exemplary diagram showing an example of a virtual keyboard displayed on the touch screen display of the information processing apparatus of the embodiment. FIG. 2 is an exemplary block diagram showing an example of the system configuration of the information processing apparatus of the embodiment. FIG. 2 is an exemplary block diagram illustrating a configuration example of a key input control program used by the information processing apparatus of the embodiment. FIG. 3 is a diagram illustrating an example of two virtual keys located in a touch area on the touch screen display of the information processing apparatus of the embodiment. The figure for demonstrating the size of the overlap part between each two virtual keys of FIG. 5, and a touch area. The figure which shows the example of allocation of the virtual key with respect to each detection area in the touchscreen provided in the information processing apparatus of the embodiment. The figure which shows the other example of allocation of the virtual key with respect to each detection area in the touchscreen provided in the information processing apparatus of the embodiment. The figure for demonstrating the example of the method of calculating the size of the overlap part between each of two virtual keys and a touch area corresponding to the case where allocation of FIG. 8 is used. 6 is an exemplary flowchart illustrating an example of a procedure of key input control processing executed by the information processing apparatus of the embodiment.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 shows the appearance of an information processing apparatus according to an embodiment of the present invention. This information processing apparatus is realized as, for example, a battery-driven portable personal computer 10.

  FIG. 1 is a perspective view of the computer 10 with the display unit opened. The computer 10 includes a computer main body 11 and a display unit 12. A display device composed of a liquid crystal display device (LCD) 13 is incorporated on the upper surface of the display unit 12, and the display screen of the LCD 13 is positioned substantially at the center of the display unit 12.

  The LCD 13 may be realized as a touch screen display capable of detecting a touch area (also referred to as a touch position) on the display screen of the LCD 13 touched with a pen or a finger. The user can select various objects (for example, icons representing folders and files, menus, buttons, and the like) displayed on the display screen of the LCD 13 using a fingertip or a pen. Coordinate data indicating the touch area on the display screen is input to the CPU in the computer 10 from the touch screen display.

  The display unit 12 has a thin box-shaped housing, and the display unit 12 is rotatably attached to the computer main body 11 via a hinge portion 14. The hinge portion 14 is a connecting portion that connects the display unit 12 to the computer main body 11. That is, the lower end portion of the display unit 12 is supported by the hinge portion 18 at the rear end portion of the computer main body 11. The display unit 12 is attached to the computer main body 11 so as to be rotatable between an open position where the upper surface of the computer main body 11 is exposed and a closed position where the upper surface of the computer main body 11 is covered by the display unit 12. A power button 16 for powering on or off the computer 10 is provided at a predetermined position on the upper surface of the display unit 12, for example, on the right side of the LCD 17.

  The computer main body 11 is a base unit having a thin box-shaped housing, and a liquid crystal display device (LCD) 15 that functions as a touch screen display is incorporated on the upper surface thereof. The display screen of the LCD 15 is the display screen of the computer main body 11. It is located at the center. A transparent touch panel is disposed on the upper surface of the LCD 15, and a touch screen display is realized by the LCD 15 and the transparent touch panel. This touch screen display can detect a touch area (also referred to as a touch position) on a display screen touched by a pen or a finger. The LCD 15 on the computer main body 11 is a display independent of the LCD 13 of the display unit 12. These LCDs 13 and 15 can be used as a multi-display for realizing a virtual screen environment. In this case, the virtual screen managed by the operating system of the computer 10 includes a first screen area displayed on the LCD 13 and a second screen area displayed on the LCD 15. Arbitrary application windows, arbitrary objects, etc. can be displayed in each of the first screen area and the second screen area.

  In the present embodiment, the LCD 15 (touch screen display) provided on the upper surface of the main body 11 is used to present a virtual keyboard (also referred to as a software keyboard) 151, for example, as shown in FIG. For example, the virtual keyboard 151 can be displayed in the full screen mode on the entire display screen of the LCD 15. The virtual keyboard 151 includes a plurality of virtual keys (a plurality of numeric keys, a plurality of alphabet keys, a plurality of arrow keys, a plurality of auxiliary keys, a plurality of function keys, etc.) for inputting a plurality of key codes. More specifically, the virtual keyboard 151 includes a plurality of buttons (software buttons) corresponding to the plurality of virtual keys.

  On the other hand, the LCD 13 in the display unit 12 can be used as a main display for displaying various application windows and the like as shown in FIG. The user can input various code data (key code, character code, command, etc.) to the application window or the like displayed on the LCD 13 by touching the virtual keyboard displayed on the touch screen display 15. I can do it.

  Two button switches 17 and 18 are provided at predetermined positions on the upper surface of the computer main body 11, for example, on both sides of the LCD 15. An arbitrary function can be assigned to each of these button switches 17 and 18. For example, the button switch 17 can be used as a button switch for starting a key input control program which is an application program for controlling a key input operation using a virtual keyboard. When the button switch 17 is pressed by the user, the key input control program is activated. The key input control program displays a virtual keyboard on the touch screen display 15.

  Next, the system configuration of the computer 10 will be described with reference to FIG. Here, it is assumed that both LCDs 13 and 15 are realized as touch screen displays.

  The computer 10 includes a CPU 111, a north bridge 112, a main memory 113, a graphics controller 114, a south bridge 115, a BIOS-ROM 116, a hard disk drive (HDD) 117, an embedded controller 118, and the like.

  The CPU 111 is a processor provided to control the operation of the computer 10 and executes an operating system (OS), various application programs, and the like loaded from the HDD 117 to the main memory 113. The application program includes a key input control program 201. The key input control program 201 displays the virtual keyboard 151 on the touch screen display 15 and generates code data according to the touch operation of the virtual keyboard 151 by the user. The generated code data (for example, a key code corresponding to the touched virtual key) is passed to the active application via, for example, an operating system (OS). The CPU 111 also executes a system BIOS (Basic Input Output System) stored in the BIOS-ROM 116. The system BIOS is a program for hardware control.

  The north bridge 112 is a bridge device that connects the local bus of the CPU 111 and the south bridge 115. The north bridge 112 also includes a memory controller that controls access to the main memory 115. The graphics controller 114 is a display controller that controls the two LCDs 13 and 15 respectively used as a display monitor of the computer 10. The graphics controller 114 executes display processing (graphics calculation processing) for drawing display data in a video memory (VRAM) based on a drawing request received from the CPU 111 via the north bridge 112. A storage area for storing display data corresponding to the screen image displayed on the LCD 13 and a storage area for storing display data corresponding to the screen image displayed on the LCD 15 are allocated to the video memory. A transparent touch panel 13 </ b> A is disposed on the LCD 13. Similarly, a transparent touch panel 15 </ b> A is disposed on the LCD 15. Each of the touch panels 13A and 15A is configured to detect a touch area (touch position) on the touch panel (touch screen display) using, for example, a resistance film method or a capacitance method. Further, as each of the touch panels 13A and 15A, a multi-touch panel capable of simultaneously detecting a plurality of touch positions may be used.

  The south bridge 115 incorporates an IDE (Integrated Drive Electronics) controller and a Serial ATA controller for controlling the HDD 121. The embedded controller (EC) 118 has a function of powering on / off the computer 10 in accordance with the operation of the power button switch 16 by the user. The embedded controller (EC) 118 includes a touch panel controller 301 that controls each of the touch panels 13A and 15A.

Next, the configuration of the key input control program 201 will be described with reference to FIG.
The key input control program 201 receives touch area detection information from the touch panel 15A via the touch panel driver program, and based on the touch area detection information, a virtual key touched by a user from a plurality of virtual keys in the virtual keyboard 151 Select. The touch area detection information includes coordinate data indicating a touch area (touch position) on the touch panel display (LCD 15 and touch panel 15A) touched by an external member (for example, a user's finger or pen).

  The key input control program 201 includes a virtual key selection unit 211, a code output unit 212, and a virtual keyboard presentation unit 213 as function execution modules. The virtual key selection unit 211 selects one or more virtual keys located in the touch area on the touch screen display from a plurality of virtual keys included in the virtual keyboard. For example, when there is only one virtual key located in the touch area on the touch screen display, the virtual key selection unit 211 selects one virtual key from a plurality of virtual keys included in the virtual keyboard. . On the other hand, for example, when there are two or more virtual keys located in the touch area, such as when two adjacent boundary positions are touched, the virtual key selection unit 211 sets the two or more virtual keys located in the touch area. Select the virtual key.

  The selection of the virtual key by the virtual key selection unit 211 can be performed based on, for example, the above-described touch area detection information indicating the touch area and the key assignment information. The key assignment information indicates an area on the touch screen display where each of the plurality of virtual keys is displayed, that is, a display area of each virtual key.

  When two or more virtual keys are selected by the virtual key selection unit 211, the code output unit 212 obtains the size of the overlapping portion between the touch area and each of the two or more selected virtual keys, and Based on the size, code data corresponding to one of the two or more virtual keys is output to an application program or the like. More specifically, the code output unit 212 includes a contact area determination unit 212A. The contact area determination unit 212A calculates the size of the overlapping portion between the touch area and each of the two or more selected virtual keys. The size of the overlapping portion corresponds to the contact area between the virtual key and the external member. For example, as shown in FIG. 5, when an intermediate area between two adjacent virtual keys, for example, “J” key and “K” key is pressed by a user's finger, these “J” keys Since the “K” key is located in the touch area, the “J” key and the “K” key are selected by the virtual key selection unit 211. In this case, as shown in FIG. 6, the contact area determination unit 212 </ b> A performs the above-described contact area (that is, the overlapping portion between the touch area and the virtual key) for each of these “J” key and “K” key. Size). The code output unit 212 selects the virtual key having the largest overlapping portion size (contact area) as the pressed virtual key. For example, as shown in FIG. 6, the size of the overlap portion A1 between the touch area and the “J” key display region and the size of the overlap portion A2 between the touch area and the “K” key display region If the ratio is 40%: 60%, the code output unit 212 selects the “K” key as a pressed virtual key (input key), and selects the code data corresponding to the “K” key as an application program or the like. Output to. The “J” key having a small contact area is determined as an “wrong input key”, and the input of the “J” key is invalidated. That is, only code data corresponding to the “K” key having a large contact area is output to the application program or the like.

As a method for obtaining the size of the overlapping portion between the touch area and the virtual key, for example, as shown in FIG. A method of calculating the number of detection areas in contact with the external member for each selected virtual key as the size of the overlapping portion (contact area) may be used. The broken lines in FIG. 7 indicate detection areas arranged in a matrix in the touch panel 15A. If the touch panel 15A is configured to output a signal level corresponding to the contact area between the external member and the touch panel 15A for each detection area, as shown in FIG. 8, one virtual key is detected as one detection key. It may be assigned to an area. As shown in FIG. 8, when an intermediate region between the “J” key and the “K” key is pressed by an external member (for example, a user's finger or pen), for example, as shown in FIG. The upper transparent resistance film (ITO) and the lower transparent resistance film (ITO) are in contact with each other. In this case, each of the detection area corresponding to the “J” key and the detection area corresponding to the “K” key outputs a signal indicating contact with the external member. Contact in the detection area corresponding to the “K” key rather than the contact area S1 in the detection area corresponding to the “J” key (that is, the area where the detection area corresponding to the “J” key and the external member are in contact) When the area S2 (that is, the area of the area where the detection area corresponding to the “K” key and the external member are in contact) is larger than the signal level output from the detection area corresponding to the “J” key. Also, the signal level output from the detection area corresponding to the “K” key is larger. Therefore, by comparing the levels of these signals, a virtual key (here, the largest overlap size (contact area) among the “J” key and “K” key located in the touch area)
“K” key) can be selected.

  The virtual keyboard presenting unit 213 in FIG. 4 displays the virtual keyboard 151 on the display screen of the LCD 15 via the display driver program. As described above, the virtual keyboard 151 includes a plurality of virtual keys for inputting a plurality of key codes. Furthermore, the virtual keyboard presenting unit 213 has a function of changing the size of the virtual keyboard 151 displayed on the display screen of the LCD 15. The display area of each virtual key indicated by the key assignment information is automatically updated according to the size change of the virtual keyboard 151.

  In the virtual keyboard 151, a plurality of keys are arranged at a relatively narrow pitch. Further, the virtual keyboard 151 cannot give the user a click feeling. Therefore, during the type input period of the virtual keyboard 151, not only the target virtual key but also another virtual key adjacent to the target virtual key may be touched by the user's finger. In this case, in this embodiment, the virtual key having the largest size of the overlapping portion with the touch area is determined as the input key from among the plurality of touched virtual keys, and input of other keys is invalidated. . Therefore, it is possible to prevent erroneous input due to simultaneous pressing of a plurality of virtual keys without interrupting type input by the user.

Next, a procedure of key input processing executed by the key input control program 201 will be described with reference to the flowchart of FIG.
When the key input control program 201 is activated, the key input control program 201 displays the virtual keyboard 151 on the LCD 15 (touch screen display) on the main body 11 (step S11). When the virtual keyboard 151 on the touch screen display is touched by the user, the touch area on the touch screen display is detected by the touch panel 15A, and touch area detection information indicating the touch area is obtained from the touch panel driver program from the key input control program. 201 (step S12). That is, the key input control program 201 receives touch area detection information from the touch panel 15A via the touch panel driver program. The key input control program 201 selects a virtual key located in the touch area from the plurality of virtual keys included in the virtual keyboard 151 based on the received touch area detection information and key assignment information (step S13).

  The key input control program 201 determines whether or not a plurality of (two or more) virtual keys have been selected (step S14). If two or more virtual keys are selected (YES in step S14), the key input control program 201 obtains the size of the overlapping portion between the virtual keys and the touch area for each selected virtual key ( Step S15). Then, the key input control program 201 compares the sizes of the overlapping portions corresponding to the selected virtual keys with each other (step S16), and determines the virtual key with the largest overlapping portion size as the input virtual key (step S16). S17). In step S17, the key input control program 201 supplies code data corresponding to the virtual key having the largest overlapping portion size to the application program or the like.

  If two or more virtual keys are not selected, that is, if only one virtual key is selected (NO in step S14), the key input control program 201 uses the selected virtual key as an input virtual key. Determine (step S17).

  As described above, according to the present embodiment, when an intermediate area between adjacent virtual keys is pressed by a user's finger or the like, for each of these virtual keys, the overlap between the touch area and the virtual key is performed. The size of the portion is obtained, and code data corresponding to one of the pressed virtual keys is output based on the obtained size of the overlapped portion. Therefore, the operability of the virtual keyboard 151 can be improved.

  Although the computer 10 of the present embodiment includes the main body 11 and the display unit 12, almost all of the components constituting the system of the computer 10 are not necessarily provided in the main body 11. For example, one of the components A part or almost all may be provided in the display unit 12. In this sense, it can be said that the main body 11 and the display unit 12 are substantially equivalent units. Therefore, the main body 11 can also be considered as a display unit, and the display unit 12 can also be considered as a main body.

  Further, since the key input control function of the present embodiment is realized by a computer program, the computer program is installed in a computer having a touch screen display and executed through a computer-readable storage medium storing the computer program. Thus, the same effect as in the present embodiment can be easily obtained.

  Further, the present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine a component suitably in different embodiment.

  DESCRIPTION OF SYMBOLS 10 ... Computer, 11 ... Main body, 12 ... Display unit, 13, 15 ... LCD, 151 ... Virtual keyboard, 13A, 15A ... Touch panel, 111 ... CPU, 151 ... Virtual keyboard, 201 ... Key input control program, 211 ... Virtual key Selection unit, 212 ... code output unit, 212A ... contact area determination unit, 213 ... virtual keyboard presentation unit.

Claims (8)

Touch screen display,
Virtual keyboard presenting means for presenting a virtual keyboard including a plurality of virtual keys for inputting key codes on the touch screen display;
Virtual key selection means for selecting one or more virtual keys located in a touch area on the touch screen display from the plurality of virtual keys;
When two or more virtual keys are selected by the virtual key selection means, the size of the overlapping portion between the touch area and each of the two or more virtual keys is obtained, and the 2 is determined based on the size of the overlapping portion. An information processing apparatus comprising: code output means for outputting code data corresponding to one of the above virtual keys.   The information processing apparatus according to claim 1, wherein the code output unit outputs code data corresponding to a virtual key having the largest size of the overlapping portion from the two or more virtual keys. A first housing including the touch screen display;
The information processing apparatus according to claim 1, further comprising: a second housing that includes a display and is rotatably attached to the first housing.   The virtual key selection unit receives touch area detection information indicating the touch area from the touch screen display, and the received touch area detection information and an area on the touch screen display in which each of the plurality of virtual keys is displayed. 2. The information processing apparatus according to claim 1, wherein one or more virtual keys located in a touch area on the touch screen display are selected from the plurality of virtual keys based on key assignment information indicating the information. A key input method for inputting code data corresponding to a pressed key using a touch screen display of an information processing device,
Presenting a virtual keyboard including a plurality of virtual keys for inputting key codes on the touch screen display;
Selecting one or more virtual keys located in a touch area on the touch screen display from the plurality of virtual keys;
When two or more virtual keys are selected, determining a size of an overlapping portion between the touch area and each of the two or more virtual keys;
And a step of outputting code data corresponding to one of the two or more virtual keys based on the size of the overlapping portion.   6. The key input according to claim 5, wherein the step of outputting the code data includes a step of outputting code data corresponding to a virtual key having the largest size of the overlapping portion from the two or more virtual keys. Method. A program for inputting code data using a touch screen display of a computer,
Presenting a virtual keyboard including a plurality of virtual keys for inputting key codes on the touch screen display;
Selecting one or more virtual keys located in a touch area on the touch screen display from the plurality of virtual keys;
When two or more virtual keys are selected, a procedure for obtaining a size of an overlapping portion between the touch area and each of the two or more virtual keys;
A program for causing the computer to execute a procedure for outputting code data corresponding to one of the two or more virtual keys based on the size of the overlapping portion.   8. The program according to claim 7, wherein the step of outputting the code data includes a step of outputting code data corresponding to a virtual key having the largest size of the overlapping portion from the two or more virtual keys.

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