JP3793740B2 - Portable information terminal device, display control information, and display control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a portable information terminal device,Display control programAnd a display control method.
[0002]
[Prior art]
A so-called PDA (Personal Digital Assistant) equipped with a touch panel is known as one of portable information terminal devices that can carry various personal information as digital information.
The PDA can execute a plurality of application software (also simply referred to as “applications”) by arithmetic processing such as a built-in CPU. Examples of the application software include schedule table software, address book software, memo pad software, word processor software, calculator software, electronic mail software, Web browser software, music playback software, image browsing software, clock display software, and the like.
[0003]
The operation of selecting and executing application software in the PDA is controlled by an application management program called “launcher”. If application software, documents, etc. are registered in advance, the application software, documents, etc. registered by the launcher are displayed in a menu and can be started directly by a simple input operation.
[0004]
The menu display in the launcher has been conventionally arranged as a set of icons representing registered applications and documents and their names (this set is hereinafter referred to as “menu display body”) and arranged like tiles on a plane. It was displayed. The user selects one of the menu displays by operating a button such as a lever or a cross key or by selecting with a pointer such as a stylus pen or a track pad.
[0005]
In addition, since PDA places importance on portability, the size of the physical display screen is limited to the extent that it can fit in an adult's palm, for example. Accordingly, menu displays that cannot be displayed in the display screen must be displayed by scrolling the screen. The scroll operation was a button operation such as a lever or a tap operation at a specific position with a stylus pen. Specifically, when holding the PDA with the left hand, a scroll operation is realized by operating with a finger (for example, thumb) of the left hand or tapping a specific position (scroll instruction position) with a stylus pen held in the right hand. It was.
[0006]
[Problems to be solved by the invention]
However, when the scroll operation and the menu display body selection operation are performed, at least two operations are required. In addition, the scroll operation on the touch panel is an operation similar to a mouse operation on a normal personal computer (for example, a tap operation).
[0007]
The present invention has been made in view of the above-described problems, and an object of the present invention is to improve the operability of menu display in a portable information terminal device including a touch panel. It is to provide a feeling.
[0012]
[Means for Solving the Problems]
  In order to solve the above problems, the first invention isDisplay unit integrated with touch panel(For example, the LCD panel 11 of FIG. 1)A predetermined display area of the display unit, all or part of a plurality of information display bodies arranged in a predetermined arrangement(For example, the main display area 11a in FIG. 1)Type portable information terminal device(For example, PDA 1 in FIG. 1)A selection candidate position within the predetermined display area(For example, menu display areas 31a to 31e in FIG. 2)Setting means for setting(For example, the menu display control unit 310 in FIG. 18)When,On the touch panelScrolling means for scrolling the information display when a drag operation is performed(For example, the scroll display control unit 314 in FIG. 18)And first determination means for determining the information display body displayed at the selection candidate position as a selection candidate(For example, the menu display control unit 310 in FIG. 18)And storage means for storing a plurality of programs corresponding to all or a part of the plurality of information display bodies(For example, the storage unit 400 in FIG. 18)And a program corresponding to the information display body determined as a selection candidate by the first determination unit, and a tap-out determination unit (for example, the input determination unit 311 in FIG. 18) that determines the tap-out of the drag operation, Starting means for starting the program when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after stopping the drag operation(For example, the application activation control unit 320 in FIG. 18)And a drag operation is possible over the entire predetermined display area.
[0013]
  Also,7thAccording to the present invention, a portable information terminal device including a display unit configured integrally with a touch panelOn the computerFor displaying all or part of a plurality of information display bodies arranged in a predetermined arrangement in a predetermined display area of the display unitDisplay control program(For example, the control program 412 of FIG. 18),The computer,Setting means for setting a selection candidate position in the predetermined display areaOn the touch panelScrolling means for scrolling the information display when a drag operation is performed,First determination means for determining an information display body displayed at the selection candidate position as a selection candidate,Storage means for storing a plurality of programs corresponding to all or part of the plurality of information display bodies,Tap-out determination means for determining tap-out of the drag operation in a scroll stop state for a predetermined time or longer,When there is a program corresponding to the information display body determined as the selection candidate by the first determination means, and when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after the drag operation is stopped , Starting means for starting the programTo function asIt is characterized by.
[0014]
  Also,11thThe invention includes a display unit configured integrally with a touch panel, and a plurality of portable information terminal devices arranged in a predetermined arrangement with respect to a portable information terminal device capable of a drag operation in the entire predetermined display area of the display unit. A display control method for displaying all or part of an information display body in the predetermined display area, wherein a setting step for setting a selection candidate position in the predetermined display area;On the touch panelWhen a drag operation is performed, a scroll step for scrolling the information display body, a first determination step for determining the information display body displayed at the selection candidate position as a selection candidate, and the plurality of information display bodies A storage step for storing a plurality of programs corresponding to all or part of the information, a tap-out determination step for determining a tap-out of the drag operation, and an information display body determined as a selection candidate in the first determination step. There is a corresponding program, and when the time until the tap-out determination in the tap-out determination step exceeds a predetermined time after the drag operation is stopped, a startup step of starting the program is included. Yes.
[0015]
  this1st, 7th or 11thAccording to the invention, a drag operation is possible in the entire predetermined display area where a plurality of information display bodies are displayed, and scroll display of the information display bodies is executed by the drag operation. Therefore, for scroll display, the user only needs to perform a drag operation as if drawing an arbitrary line. Moreover, in the portable information terminal device, since the size of the display screen is small, the predetermined display area may be set on the entire display screen of the display unit. For example, when a menu display body is used as an information display body and a menu screen is displayed, the menu screen can be displayed using the entire display screen, and a scroll operation (ie, a drag operation) can be performed on the entire screen. Is possible. Further, as a result of the scroll display, the information display body (menu display body) displayed at the selection candidate position becomes the selection candidate, so that the scroll operation instruction can be performed by one operation, that is, one operation of the drag operation. The selection of the information display body (menu display body) can be realized. In addition, erroneous start of the program due to a drag operation can be prevented, and operability can be improved. That is, if the user taps out within a predetermined time from the end of the scroll display, the program corresponding to the information display object that is selected as a selection candidate is not started. On the other hand, when tapping out after a lapse of a predetermined time from the end of the scroll display, the program is started. For this reason, it is possible to prevent an unexpected program from starting due to a drag operation for scroll display. On the other hand, a desired program can be started by delaying the tap-out during the drag operation (that is, after a predetermined time elapses). For this reason, it is possible to improve the operability while realizing scroll display and selection by a single operation.
[0016]
  SecondThe present invention includes a display unit configured integrally with a touch panel, and a virtual camera(For example, virtual camera F in FIG. 24)A virtual surface that is a curved surface on which a plurality of information display bodies are arranged as seen from FIG.(For example, menu display body group 40 in FIG. 24)A portable information terminal device that displays all or part of the information in a predetermined display area of the display unit, and setting means for setting a selection candidate position in the predetermined display area;On the touch panelScroll means for scrolling and displaying the information display body by moving at least one of the virtual camera and the virtual surface when a drag operation is performed, and selecting the information display body displayed at the selection candidate position First determination means for determining, storage means for storing a plurality of programs corresponding to all or part of the plurality of information display bodies, tap-out determination means for determining tap-out of the drag operation, When there is a program corresponding to the information display body determined as the selection candidate by the first determination means, and when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after the drag operation is stopped A starting means for starting the program, and a drag operation is possible over the predetermined area. It is set to.
[0017]
  Further, the eighth invention isPortable information terminal device having a display unit configured integrally with a touch panelOn the computerFor displaying all or part of a virtual surface, which is a curved surface provided with a plurality of information display bodies, viewed from a virtual camera in a predetermined display area of the display unitDisplay control programBecauseThe computer,Setting means for setting a selection candidate position in the predetermined display areaOn the touch panelScrolling means for scrolling and displaying the information display body by moving the virtual camera when a drag operation is performed,First determination means for determining an information display body displayed at the selection candidate position as a selection candidate,Storage means for storing a plurality of programs corresponding to all or part of the plurality of information display bodies,Tap-out determination means for determining tap-out of the drag operation in a scroll stop state for a predetermined time or longer,When there is a program corresponding to the information display body determined as the selection candidate by the first determination means, and when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after the drag operation is stopped , Starting means for starting the programTo act asIt is characterized by that.
[0018]
  Also,12thThe present invention includes a display unit integrally formed with a touch panel, and a plurality of information displays as viewed from a virtual camera with respect to a portable information terminal device capable of a drag operation in the entire predetermined display area of the display unit. A display control method for displaying all or part of a virtual surface, which is a curved surface on which a body is disposed, in the predetermined display area, and a setting step for setting a selection candidate position in the predetermined display area;On the touch panelA scrolling step of scrolling the information display body by moving the virtual camera when a drag operation is performed, and a first determination step of determining the information display body displayed at the selection candidate position as a selection candidate A storage step of storing a plurality of programs corresponding to all or a part of the plurality of information display bodies, and a tap-out determination step of determining a tap-out of the drag operation in a scroll stop state for a predetermined time or longer And there is a program corresponding to the information display body determined as the selection candidate in the first determination step, and the time until the tap-out determination in the tap-out determination step exceeds a predetermined time after the drag operation is stopped Includes a starting step of starting the program.
[0019]
  this2nd, 8th or 12thAccording to the invention of1st, 7th or 11thThe same effects as those of the invention can be obtained, and the following effects are exhibited. In other words, the information display body is disposed on the virtual plane, and scroll display can be realized by moving the virtual camera with the line of sight directed to the virtual plane. Therefore, scroll control in the virtual space can be more easily realized.
[0020]
  ThirdThe invention of1st or 2nd inventionWhen a tap operation is performed within the predetermined display area, the portable information terminal device is displayed at the tap position instead of the information display body selected as the selection candidate by the first determination means. The information display body is further provided with second determining means (for example, the menu display control unit 310 in FIG. 18) for determining as a selection candidate.
[0021]
  thisThirdAccording to this invention, as a method for selecting a desired information display body, it can be realized by a tap operation in addition to a drag operation. Therefore, when the desired information display body is not displayed within the predetermined display area, the drag operation is performed, while when the desired information display body is displayed, the tap operation is performed. It can be used properly according to. That is, in any case, it becomes possible to easily select a desired one, and the operability can be further improved.
[0022]
  4thAs an invention ofThirdIn the portable information terminal device of the invention, when the determination by the second determination unit is made, the activation unit is determined as a selection candidate by the second determination unit out of the programs stored in the storage unit If there is a program corresponding to the information display body, the program may be activated.
[0023]
  Also,9thThe invention of7th or 8thOf the inventionDisplay control programBecauseThe computer,When a tap operation is performed within the predetermined display area, the information display body displayed at the tap position is determined as a selection candidate instead of the information display body selected as a selection candidate by the first determination unit. Second determining meansAnd the starting means isWhen the determination by the second determination means is made, if there is a program corresponding to the information display body determined as a selection candidate by the second determination means among the programs stored in the storage means, The programto startIt is characterized by that.
[0024]
  Also,13thThe invention of11th or 12thIn the display control method according to the invention, when a tap operation is performed in the predetermined display area, the selected candidate information display body determined as a selection candidate in the first determination step is displayed at the tap position. A second determination step of determining the information display body being selected as a selection candidate, and when a determination is made in the second determination step, among the programs stored in the storage step, as a selection candidate in the second determination step And a step of starting the program when there is a program corresponding to the determined information display body.
[0025]
  this4th, 9th or 13thAccording to the invention, an application corresponding to the information display body selected by the tap operation can be activated. That is, a desired application can be started directly by a single operation such as a tap operation, and the operability can be further improved.
[0026]
  Also,5thThe invention of1st to 4thAccording to any one of the portable information terminal devices of the invention, a target scroll amount setting means for setting a target scroll amount according to the operation amount of the drag operation, and a drag speed of the drag operation, Target scroll amount changing means for changing the target scroll amount set by the target scroll amount setting means, and the scroll means includes a target scroll amount changed by the target scroll amount changing means, an existing scroll amount, The scroll display speed is controlled in accordance with the remaining scroll amount which is the difference between.
[0027]
  Also,10thThe invention of7th to 9thAny one of the inventions ofDisplay control programBecauseThe computer,Target scroll amount setting means for setting a target scroll amount according to the operation amount of the drag operation,Target scroll amount changing means for changing the target scroll amount set by the target scroll amount setting means in accordance with the drag speed of the drag operation., And the scrolling meansThe scroll display speed is changed according to the remaining scroll amount which is the difference between the target scroll amount changed by the target scroll amount changing means and the existing scroll amount.ControlIt is characterized by that.
[0028]
  Also,14thThe invention of11th to 13thAny one of the display control methods according to the invention, wherein a target scroll amount setting step of setting a target scroll amount according to the operation amount of the drag operation, and the target scroll according to the drag speed of the drag operation. In accordance with the remaining scroll amount that is the difference between the target scroll amount changing step for changing the target scroll amount set in the amount setting step, the target scroll amount changed in the target scroll amount changing step, and the existing scroll amount. And a step of controlling the speed of scroll display.
[0029]
  this5th, 10th or 14thAccording to the invention, the target scroll amount is set according to the operation amount of the drag operation, that is, the drag movement distance. Therefore, for example, it is possible to obtain a smooth stop feeling by controlling the scroll speed to become slower as the remaining scroll amount becomes smaller as a result of the scroll operation. Further, the target scroll amount can be changed according to the drag speed. In other words, it is possible to add a drag speed component to the scroll display speed.
[0030]
  6thThe invention of1st to 5thThe portable information terminal device according to any one of the inventions, wherein the setting means moves the selection candidate position in accordance with scroll display by the scroll means.
[0031]
  this6thAccording to the invention, the selection candidate position moves with the scroll display. As a result, the currently displayed information display body can be easily grasped based on the selection candidate position in the predetermined display area, and the operability can be further improved. Can do.
[0046]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
In the following, a portable information terminal device (hereinafter referred to as “PDA”) to which the present invention is applied will be described as an example, but the application of the present invention is not limited thereto.
[0047]
FIG. 1 is an external view showing a PDA 1 according to the present embodiment. The figure (a) has shown the side view, and the figure (b) has shown the front view, respectively.
According to the figure, the PDA 1 includes a substantially rectangular parallelepiped casing 10 and a stylus pen 20.
[0048]
The housing 10 includes an LCD panel 11, a Compact Flash (registered trademark) card slot 12, an interface connector 13, a side controller 14, an escape key 15, and a power key 16, and a stylus pen is housed inside the housing 10. A portion 17 is provided. These elements other than the stylus pen storage unit 17 are connected to a control unit 18 stored in the housing 10 and controlled by the control unit 18.
[0049]
The LCD panel 11 is formed by integrating an LCD display panel and a transparent touch panel superimposed on the LCD display panel. Then, in accordance with a display control signal from the control unit 18, a display screen such as a menu screen 30 to be described later is displayed on the LCD display panel, and the position on the transparent touch panel designated (pressed) by the stylus pen 20 is detected. The detected position signal is output to the control unit 18 as an operation signal.
[0050]
The display screen displayed on the LCD panel 11 is a main display area 11a for switching and displaying various screens such as a menu screen, and a sub-display for displaying a switching instruction icon for various screens displayed on the main display area 11a. It consists of a display area 11b.
[0051]
The compact flash (registered trademark) card slot 12 is a connector for inserting an external storage medium such as a memory card and reading / writing data from / to the inserted external information storage medium.
[0052]
The interface connector 13 is an interface for performing data communication with an external device by a wireless / wired method.
[0053]
The side controller 14 is a switch for the user to input various instructions. When an operation of “upward” indicated by the arrow 14a, “downward” indicated by the arrow 14b, or “pushing” into the inside of the housing 10 is performed, an operation signal corresponding to the operation is controlled. Output to unit 18.
[0054]
The escape key 15 is a switch for the user to input various instructions. When an operation of “pushing” in the inside of the housing 10 is performed, an operation signal corresponding to the operation is output to the control unit 18.
[0055]
The power key 16 is used to input a power ON / OFF instruction for the PDA 1. When the power key 16 is slid upward along the side surface of the housing 10, an operation signal corresponding to the operation is output to the control unit 18.
[0056]
FIG. 2 is a diagram showing a configuration of the menu screen 30 displayed in the main display area 11 a of the LCD panel 11.
As shown in the figure, the menu screen 30 is provided with five menu display areas 31a to 31e (hereinafter collectively referred to as “menu display area 31”). These menu display areas 31 display a menu display body that is an information display body. For example, as shown in FIG. 3, one menu display body is displayed for each of the menu display areas 31a to 31e. .
[0057]
Here, the “menu display body” includes an icon for designating an application and a menu name. In the following, the menu display body is specified by the menu name of each menu display body.
[0058]
The menu display area 31c is referred to as a “selection candidate display area 32”. In this selection candidate display area 32, a focus 33 (shaded) is displayed, and a menu display body displayed in the area is a “selection candidate”.
[0059]
FIG. 3 is a diagram illustrating a display example of the menu screen 30.
According to FIG. 5A, “application B” is displayed in the menu display area 31a, “application C” is displayed in the menu display area 31b, “application D” is displayed in the menu display area 31c, and menu display area 31d. "Application E" is displayed, and "Application F" is displayed in the menu display area 31e.
[0060]
In addition, in the selection candidate display area 32, that is, the menu display area 31c, the focus 33 is displayed over the “application D”, and the “application D” is a selection candidate.
[0061]
When the menu screen 30 is dragged upward with the stylus pen 20, the menu display displayed on the menu screen 30 is scrolled upward as shown in FIG. To do.
[0062]
According to FIG. 5B, “application D” is displayed in the menu display area 31a, “application E” is displayed in the menu display area 31b, “application F” is displayed in the menu display area 31c, and menu display area 31d. “Application G” is displayed, and “Application H” is displayed in the menu display area 31e.
That is, the displayed menu display is scrolled upward by two lines.
[0063]
Further, the menu display body displayed in the selection candidate display area 32, that is, “application F”, is displayed with the focus 33 superimposed thereon, and the “application F” is a selection candidate.
[0064]
Here, dragging with the stylus pen 20 means an operation (including stillness) of sliding on the LCD panel 11 while the pen tip of the stylus pen 20 is in contact with the LCD panel 11.
[0065]
Further, in FIG. 4B, when the drag is further upward, the displayed menu display body is further scrolled upward. Then, as shown in FIG. 6C, when the lowermost menu display body (in the figure, “Application K”) reaches the selection candidate display area 32, the scrolling is stopped.
[0066]
According to FIG. 5C, “application I” is displayed in the menu display area 31a, “application J” is displayed in the menu display area 31b, and “application K” is displayed in the menu display area 31c. ing. In addition, no menu display is displayed in the menu display areas 31d and 31e.
[0067]
The menu display body displayed in the selection candidate display area 32, that is, “application K” is displayed with the focus 33 superimposed thereon, and the “application K” is a selection candidate.
[0068]
Although FIG. 3 shows the case of dragging upward, the same applies to dragging downward.
That is, as shown in FIG. 4A, when dragging downward, the menu display displayed on the menu screen 30 scrolls downward. Then, as shown in FIG. 8B, when the top menu display (in the figure, “Application A”) reaches the selection candidate display area 32, that is, the menu display area 31c. The scrolling stops.
[0069]
3 and 4 show the state of dragging at the right end of the menu screen 30 for easy understanding, but actually, as shown in FIG. 8, the entire menu screen 30 is dragged. Operation is possible.
[0070]
FIG. 5 is a diagram for explaining the concept of scrolling the menu display body.
According to the figure, the concept of scrolling the menu display body displayed on the menu screen 30 is explained by the menu display body group 40 and the menu screen 30.
[0071]
The menu display body group 40 is a group of a plurality of menu display bodies arranged in a line on a virtual plane according to the menu number assigned thereto.
The menu number is a number for identifying a plurality of menu display bodies, and is a consecutive number from “1” to “N (the total number of menu display bodies)”.
[0072]
Of the menu display bodies in the menu display body group 40, the menu display bodies that coincide with the menu display area 31 of the menu screen 30, specifically, the five menu display bodies with consecutive menu numbers are displayed on the menu screen 30. Is displayed.
[0073]
Further, the menu display group 40 is movable in the upward / downward direction in the figure, and the menu screen 30 is fixedly arranged. When the menu display body group 40 moves in the upward / downward direction, the menu display body that matches the menu display area 31 of the menu screen 30 changes with this movement. Therefore, the menu display body displayed on the menu screen 30 scrolls in the same direction as the moving direction of the menu display body group 40.
[0074]
The scrolling is executed according to two parameters: a scroll direction and a scroll speed v.
[0075]
The scroll direction is the scroll direction of the menu display displayed on the menu screen 30, that is, the direction in which the menu display group 40 moves, and is “up”, “down”, or “none”. .
[0076]
The scroll speed v is a speed at which the menu display body displayed on the menu screen 30 scrolls in the scroll direction, that is, a speed at which the menu display body group 40 moves in the movement direction. Expressed as the number of lines in the menu display that scrolls per unit time.
For example, as shown in FIG. 3, when the area where “application D” is displayed changes from the menu display area 31c to the menu display area 31a per unit time, the scroll speed is “2”.
[0077]
Then, the scroll direction and the scroll speed v are determined as follows.
FIG. 6 is a diagram illustrating the scroll direction and the scroll speed v.
According to the figure, the scroll direction and the scroll speed v are determined by the menu display body indicated by the current position pointer 41 and the movement target pointer 42.
[0078]
The current position pointer 41 indicates a menu display that is currently selected as a candidate, that is, a menu display displayed in the selection candidate display area 32. Therefore, the menu display body indicated by the current position pointer 41 changes as the menu display body group 40 is moved.
[0079]
The movement target pointer 42 indicates a menu display body to be selected as a selection candidate, that is, a menu display body to be displayed in the selection candidate display area 32.
[0080]
The menu display body group 40 includes a menu display body indicated by the current position pointer 41 and a movement target pointer so that the menu display body indicated by the movement target pointer 42 is displayed in the selection candidate display area 32. It moves so that it may correspond with the menu display body which 42 shows.
[0081]
That is, in the figure, the current position pointer 41 indicates “application D” and the movement target pointer 42 indicates “application G”. Therefore, the scroll direction is “up”, and the menu display body group 40 moves upward.
[0082]
At this time, the menu display body group 40 moves at a scroll speed v corresponding to the inter-item distance w.
Here, the inter-item distance w indicates the distance between the menu display body indicated by the current position pointer 41 and the menu display body indicated by the movement target pointer 42, and specifically, the current position pointer 41 indicates. This is represented by the difference between the menu number of the menu display body and the menu number of the menu display body indicated by the movement target pointer 42. However, the inter-item distance w is an integer of 0 or more.
[0083]
That is, in the figure, the menu number of the menu display indicated by the current position pointer 41 is “4”, and the menu number of the menu display indicated by the movement target pointer 42 is “7”. Therefore, the inter-item distance w is “3”.
[0084]
The scroll speed v is given by the following equation based on the inter-item distance w.
v = f1 (w) (1)
However, w ≧ 0 and v ≧ 0.
According to the above equation, the moving speed v is given by the function f1 having the inter-item distance w as a variable. The function f1 may be any function, but is preferably a function in which the scroll speed v increases as the inter-item distance w increases. In other words, if the inter-item distance w decreases as a result of the scroll operation. , The scrolling speed becomes slow and a smooth stop feeling can be obtained.
Therefore, the function f1 shown in FIG. 7 is adopted as the function f1.
[0085]
FIG. 7 is a diagram illustrating a relationship (function f1) between the inter-item distance w and the scroll speed v. In the figure, the inter-item distance w is shown in the horizontal axis direction, and the scroll speed v is shown in the vertical axis direction.
[0086]
According to the figure, the scroll speed v increases as the inter-item distance w increases. When the inter-item distance w is “4”, the scroll speed v is “v4”, and beyond that, the scroll speed v is a constant value “v4” regardless of the value of the inter-item distance w. You can also.
[0087]
Incidentally, in FIG. 6, the menu display indicated by the movement target pointer 42 gradually changes in accordance with the drag by the stylus pen 20.
[0088]
FIG. 8 is a diagram showing a state of dragging by the stylus pen 20. At this time, the menu screen 30 corresponding to the input screen follows an XY orthogonal coordinate system with the origin O at the upper left of the screen.
[0089]
According to the figure, the stylus pen 20 is brought into contact with the LCD panel 11 (hereinafter referred to as “tap-in” as appropriate), and the pointing position when dragging is started (hereinafter referred to as “starting pointing position” as appropriate) P.₀The coordinate value of is (x₀, Y₀). Also, time t_nIndicated position (hereinafter referred to as “currently indicated position”) P_nThe coordinate value of is (x_n, Y_n) And time t_nT before Δt_n-1Indicated position (hereinafter referred to as “immediately indicated position”) P_n-1The coordinate value of is (x_n-1, Y_n-1).
[0090]
And time t_nThe direction of drag (hereinafter simply referred to as “drag direction”) is y_nAnd y_n-1It is determined according to the size. That is, as shown in FIG. 9, the drag direction is y_n> Y_n-1In the case of, "bottom", y_n<Y_n-1In the case of, “up”. Y_n= Y_n-1In the case of, “None”.
Thus, for example, in FIG._n<Y_n-1, And time t_nThe drag direction at is “up”.
[0091]
Based on this drag direction, the movement direction of the movement target pointer 42 is given as shown in FIG.
[0092]
By the way, in other drawings, the state of dragging at the right end of the menu screen 30 is shown for easy understanding, but actually, as shown in FIG. 8, the entire input screen, that is, the entire menu screen 30 is dragged. Is possible.
[0093]
FIG. 10 is a diagram illustrating the relationship between the drag direction and the movement direction of the movement target pointer 42. According to the figure, the movement direction of the movement target pointer 42 is “up” when the drag direction is “down”, “down” when the drag direction is “up”, and the drag direction. When “None” is “None”, it is “None”.
[0094]
Also, according to FIG._n-1To time t_nThe drag movement distance Δy during the period up to, that is, Δt is given by the following equation.
Δy = | y_n-Y_n-1| (2)
However, Δy ≧ 0.
According to the above equation, the drag movement distance Δy is given by the displacement in the Y-axis direction in the time interval Δt.
[0095]
Based on the drag movement distance Δy, the movement distance Δw of the movement target pointer 42 is given by the following equation.
Δw = f2 (Δy) (3)
However, Δw ≧ 0.
According to the above equation, the movement distance Δw of the movement target pointer 42 is given by the function f2 having the drag movement distance Δy as a variable. The function f2 may be any function, but is preferably a function in which the movement distance Δw of the movement target pointer 42 increases as the drag movement distance Δy increases.
Therefore, the function f2 shown in FIG. 11 is adopted as the function f2.
[0096]
FIG. 11 is a diagram showing the relationship (function f2) between the movement distance Δy of the drag and the movement distance Δw of the movement target pointer 42. In the figure, the drag movement distance Δy is shown in the horizontal axis direction, and the movement distance Δw of the movement target pointer 42 is shown in the vertical axis direction.
[0097]
According to the figure, the movement distance Δw of the movement target pointer 42 increases as the movement distance Δy of the drag increases.
When the movement distance Δy of the drag becomes “Δy5”, the movement distance Δw of the movement target pointer becomes “6”, and beyond that, the movement distance Δw has a constant value “6” regardless of the value of the movement distance Δy. ".
[0098]
Here, the expression (3) may be replaced with the following expression.
Δw = f2 (Δy) + k × (Δy / Δt) (3a)
However, k is a constant.
According to the above equation, when the movement distance Δw is calculated, the change in the drag movement distance Δy at the time Δt, that is, the drag speed component can be added. Therefore, it is possible to obtain a scroll speed that takes into account the effect of the drag speed.
[0099]
Thus, the movement target pointer 42 moves based on the movement direction and movement distance Δw of the movement target pointer 42 given according to the drag, and the menu display body indicated by the movement target pointer 42 changes.
[0100]
FIG. 12 is a diagram illustrating how the menu display indicated by the movement target pointer 42 changes. According to the figure, the movement target pointer 42 indicates “application G”. Then, assuming that “down” is given as the movement direction of the movement target pointer 42 and “2” is given as the movement distance Δw, the movement target pointer 42 moves downward by two lines in the figure. Accordingly, the menu display indicated by the movement target pointer 42 changes from “application G” to “application I”.
[0101]
In this way, the movement target pointer 42 moves in the given movement direction by the number of lines corresponding to the movement distance Δw. That is, the menu display indicated by the movement target pointer 42 changes in the given movement direction by the number of lines corresponding to the movement distance Δw.
[0102]
In the above description, scrolling of the menu display displayed on the menu screen 30 is performed by dragging with the stylus pen 20, but can also be performed by operation input by the side controller 14.
[0103]
Specifically, the menu display body indicated by the movement target pointer 42 changes as follows in accordance with the input of “up / down” from the side controller 14.
That is, when “up / down” input is performed by the side controller 14, the movement direction of the movement target pointer 42 is given based on this input direction as shown in FIG. 13.
[0104]
FIG. 13 is a diagram illustrating a relationship between the input direction by the side controller 14 and the moving direction of the movement target pointer 42. According to the figure, the movement direction of the movement target pointer 42 is “up” when the input direction by the side controller 14 is “down”, and “down” when the input direction is “up”. Become.
[0105]
Based on the movement direction of the movement target pointer 42 given in this way, the menu display body indicated by the movement target pointer 42 changes as shown in FIG.
[0106]
FIG. 14 is a diagram illustrating a state in which the menu display body indicated by the movement target pointer 42 changes according to the operation input of the side controller 14. According to the figure, the movement target pointer 42 indicates “application E”.
[0107]
When the side controller 14 inputs “downward”, the movement target pointer 42 moves downward by one line. Accordingly, the menu display indicated by the movement target pointer 42 changes from “application E” to “application F”.
[0108]
Further, when “upward” is input by the side controller 14, the movement target pointer 42 moves upward by one line. Accordingly, the menu display indicated by the movement target pointer 42 changes from “application E” to “application D”.
[0109]
As described above, when “up / down direction” is input by the side controller 14, the movement target pointer 42 moves by one line in the same direction as the input direction. That is, the menu display indicated by the movement target pointer 42 changes in the direction opposite to the input direction by one line.
[0110]
When a long press input in “up / down direction” is performed, the menu display indicated by the movement target pointer 42 changes as follows.
Here, “long press” means to continuously input the side controller 14 in “up / down direction”, specifically, “up direction” or “down direction”. , It means an operation that keeps pressing for a certain period of time.
[0111]
FIG. 15 is a diagram illustrating how the menu display body indicated by the movement target pointer 42 changes in response to a long press of the side controller 14. At this time, the movement direction of the movement target pointer 42 follows the relationship shown in FIG.
[0112]
In FIG. 15, the movement target pointer 42 indicates “application E”. Then, according to FIG. 5A, when the “upward” long press is performed by the side controller 14, the movement target pointer 42 continuously moves in the upward direction. When the long press is completed, the movement of the movement target pointer 42 stops. Accordingly, the menu display indicated by the movement target pointer 42 changes from “application E” to “application C”.
[0113]
Further, according to FIG. 5B, when the “downward” long press is performed by the side controller 14, the movement target pointer 42 continuously moves downward. When the long press is completed, the movement of the movement target pointer 42 stops. Accordingly, the menu display indicated by the movement target pointer 42 changes from “application E” to “application I”.
[0114]
Moreover, the movement of the movement target pointer 42 by long press of the side controller 14 is determined according to the duration of the long press.
[0115]
FIG. 16 is a diagram illustrating the relationship between the long press of the side controller 14 and the execution of the movement of the movement target pointer 42. In the figure, with the horizontal axis direction as time, the upper part of the figure indicates whether or not there is a long press input by the side controller 14, that is, whether or not the "up / down direction" input is continued, and the lower part of the figure. The movement target pointer 42 is shown in FIG.
[0116]
According to the figure, when the long press of the side controller 14 is started at time ti, the movement target pointer 42 moves by one line in the movement direction based on the input direction. That is, the menu display indicated by the movement target pointer 42 changes by one line in the moving direction.
[0117]
Next, when the initial expected time Tf elapses, the movement target pointer 42 further moves by one line in the movement direction. That is, the menu display body indicated by the movement target pointer 42 changes in the movement direction by one line.
[0118]
Thereafter, each time the repeat time Tr elapses, the movement target pointer 42 moves by one line in the movement direction. That is, the menu display body indicated by the movement target pointer 42 changes by one line in the movement direction.
[0119]
When the long press of the side controller 14 is finished at time to, the movement target pointer 42 is not moved thereafter.
[0120]
Here, even if the long press of the side controller 14 is ON, if the menu display body indicated by the movement target pointer 42 reaches the top or bottom menu display body, the movement target The pointer 42 does not move any further.
[0121]
As described above, the menu display body displayed on the menu screen 30 scrolls according to the operation input of the stylus pen 20 or the side controller 14.
[0122]
Next, a method for starting an application corresponding to the menu display body will be described. An application corresponding to each menu display body is realized by (1) stylus pen 20 or (2) side controller 14 operation input.
When the application is activated, the display of the menu screen 30 is terminated, and a screen related to the activated application is displayed on the LCD panel 11.
[0123]
(1) Activation method using a stylus pen.
The activation of the application corresponding to each menu display body by the stylus pen 20 is realized by (1) tapping or (2) dragging.
[0124]
(1) Startup method by tapping.
When one of the menu display bodies displayed on the menu screen 30 with the stylus pen 20 is tapped in detail, when the menu display area 31 is tapped, an application corresponding to the menu display body displayed at the tapped position is displayed. It is activated.
[0125]
However, for example, as shown in FIG. 3C, when the area where the menu display body is not displayed, that is, when the menu display areas 31d and 31e are tapped, the application is not started.
[0126]
(2) Activation method by dragging.
FIG. 17 is a diagram illustrating a state in which an application is activated by dragging. According to FIG. 6A, when the drag of the stylus pen 20 is finished, the scrolling of the menu display displayed on the menu screen 30 stops. That is, the “application D” displayed in the selection candidate display area 32 is displayed with the focus 33 superimposed, and the “application D” is a selection candidate.
[0127]
At this time, the pen tip of the stylus pen 20 is kept pressed without being separated from the LCD panel 11. Then, after a certain period of time, the menu screen 30 changes as shown in FIG.
[0128]
According to FIG. 5B, the focus 33 displayed over the “application D” is displayed darkly. At the same time, the “application D” transitions from “selection candidate” to “wait for activation”.
[0129]
Thereafter, when the stylus pen 20 in contact with the LCD panel 11 is separated from the LCD panel 11 (hereinafter, referred to as “tap out” as appropriate), an application corresponding to “application D” that is in a standby state is It is activated.
[0130]
In FIG. 17A, after the drag is stopped, the pen tip of the stylus pen 20 is released from the LCD panel 11 without waiting for the elapse of the predetermined time, that is, when the tap is taken out, the color becomes darker after the predetermined time. Although displayed, the application is not launched.
[0131]
As a result, a series of operations such as scrolling, selection of a desired menu display, and activation can be realized by a single drag, and the operability can be improved.
[0132]
Furthermore, as a method for selecting a desired menu display, it can be realized by dragging in addition to tapping. Accordingly, it is possible to use a drag display when a desired menu display body is not displayed in the menu screen 30, and a tap when the desired menu display body is displayed. That is, in any case, it is possible to easily select a desired menu display body, and the operability can be further improved.
[0133]
(2) Start-up method by side controller.
Activation of the application corresponding to each menu display body by the side controller 14 is realized as follows.
That is, when the side controller 14 is “pushed”, an application corresponding to the menu display body of the currently selected candidate is started.
[0134]
For example, in FIG. 17A, “application D” is a menu display of a selection candidate. In this state, when the side controller 14 is “pushed”, an application corresponding to the “application D” is activated.
[0135]
FIG. 18 is a block diagram showing a functional configuration of the PDA 1. According to FIG. 1, the PDA 1 includes an input unit 100, a display unit 200, a processing unit 300, and a storage unit 400.
[0136]
The input unit 100 is a functional unit that allows the user of the PDA 1 to input various operation instructions. Specifically, the touch panel of the LCD panel 11, the side controller 14, the escape key 15, the power key 16, and the like of FIG. It corresponds to. When these elements are operated, an operation signal corresponding to the operation is output to the processing unit 300. For example, the coordinate value of the touch panel instructed (pressed) by the pen tip of the stylus pen 20, the “up / down direction” or “push” input signal of the side controller 14, and the like are output to the processing unit 300.
[0137]
The display unit 200 is a functional unit that displays a display screen in accordance with a display signal input from the processing unit 300, and specifically corresponds to the LCD panel 11 of FIG. Then, the menu screen 30 is displayed in the main display area 11 a formed on the LCD panel 11.
[0138]
The processing unit 300 is a functional unit for comprehensively controlling the elements constituting the PDA 1 and realizing the functions of the PDA 1, and corresponds to the control unit 18 in FIG.
The processing unit 300 includes a menu display control unit 310 and an application activation control unit 320.
[0139]
The menu display control unit 310 performs various controls related to the display of the menu screen 30, and displays the menu screen 30 shown in FIG.
The menu display control unit 310 includes an input determination unit 311, a movement target setting unit 312, a scroll speed control unit 313, and a scroll display control unit 314.
[0140]
The input determination unit 311 determines whether or not there is an operation input from the input unit 100 and, when any operation input is made, determines what operation the operation is. For example, it is determined whether it is from the LCD panel 11 (touch panel) or from the side controller 14.
[0141]
The movement target setting unit 312 moves the movement target pointer 42 according to the input signal from the input unit 100 and updates the movement target number.
[0142]
The scroll speed control unit 313 calculates the scroll direction and the scroll speed v based on the menu display body indicated by the current position pointer 41 and the movement target pointer 42, that is, the scroll target data 423, and updates the scroll control data 425. .
[0143]
Based on the scroll control data 425, the scroll display control unit 314 moves the menu display body group 40, scrolls the menu display body displayed on the menu screen 30, and updates the current position number.
[0144]
The application activation control unit 320 calls and executes a corresponding application program from the storage unit 400 based on the application activation condition data 426. Further, in response to a tap by the stylus pen 20 or “pressing” of the side controller 14, the corresponding application is called from the storage unit 400 and executed.
[0145]
The storage unit 400 stores various programs and data related to the PDA 1 and the functions of the present embodiment, and stores an application program 411, a control program 412 that is display control information, control data, and the like, and execution of these programs The processing data according to the above, input data from the input unit 100, and the like are temporarily stored.
[0146]
The application program 411 is a program related to various applications to be realized in the PDA 1 such as “mail software”, “browser software”, “schedule software”, and the like. It is prepared.
[0147]
The control data includes menu screen data 421, menu display body data 422, scroll target data 423, designated position data 424, scroll control data 425, application activation condition data 426, scroll speed calculation formula 427, and movement distance calculation. Equation 428 is included.
[0148]
The menu screen data 421 is data for displaying the menu screen 30 on the display unit 200, and includes, for example, the position coordinates of the menu display area 31.
[0149]
The menu display body data 422 is data relating to a plurality of menu display bodies to be displayed in the menu display area 31, and FIG. 19 shows the data configuration.
FIG. 19 is a diagram showing a data configuration of the menu display body data 422. As shown in FIG. According to the figure, the menu display data is configured by associating a menu number, an icon, and a menu name for each of a plurality of menu display bodies.
[0150]
The scroll target data 423 is data serving as a scroll target, and according to FIG. 20A, the current position number and the movement target number are included. Then, the scroll speed control unit 313 calculates the scroll direction and the scroll speed based on the scroll target data 423.
[0151]
The current position number is the menu number of the menu display object that is the currently selected candidate, that is, the menu display object indicated by the current position pointer 41.
The movement target number is the menu number of the menu display body to be matched with the menu display body indicated by the current position pointer 41, that is, the menu display body indicated by the movement target pointer 42.
[0152]
The designated position data 424 is position data on the LCD panel 11 designated by the stylus pen 20, and according to FIG. 20B, the current designated position P_n, And immediately before indicated position P_n-1, Is included. Then, the movement target setting unit 312 moves the movement target pointer 42 based on the designated position data 424.
[0153]
The scroll control data 425 is data for controlling the scrolling of the menu display body, and includes the scroll direction and the scroll speed v according to FIG. Then, the scroll display control unit 314 moves the menu display body group 40 based on the scroll control data 425 to scroll the menu display body displayed on the menu screen.
[0154]
The application activation condition data 426 is a condition for setting the selection candidate menu display to stand by for activation. According to FIG. 20D, the continuous activation time and the activation waiting reference time are included.
The continuous rest time is a time during which the drag is continuously stopped without being tapped out. The start standby reference time is an upper limit value of the continuous stationary time.
Then, based on the application activation condition data, the application activation control unit 320 shifts the menu display body currently selected as a selection candidate to the activation standby state when the continuous stationary time is equal to or longer than the continuous standby reference time. Let
[0155]
The scroll speed calculation formula 427 is a formula for calculating the scroll speed v from the inter-item distance w, and specifically corresponds to the formula (1) or the graph shown in FIG.
[0156]
The movement distance calculation expression 428 is an expression for calculating the movement distance Δw of the movement target pointer 42 from the movement distance Δy of the drag, and is specifically shown in Expression (3) or FIG. The graph is applicable.
[0157]
Next, the operation of the PDA 1 of this embodiment will be described.
21 to 23 are flowcharts showing the operation of the PDA 1. This operation is an operation executed by the processing unit 300 according to the control program 412 stored in the storage unit 400.
[0158]
According to FIG. 21, when the power of the PDA 1 is turned on by operating the power key 16, the menu display control unit 310 refers to the menu screen data 421 and the menu display body data 422, and displays the menu screen 30 (initial screen). ) Is displayed on the display unit 200 (step S11). At this time, the menu display control unit 310 displays the menu display body having the menu number “1” in the menu display area 31a.
Then, it waits for an operation input from the input unit 100.
[0159]
When any operation input is made by the input unit 100 (step S12: YES), the input determination unit 311 determines whether the operation is an input from the LCD panel 11 or an input from the side controller 14. (Step S13).
[0160]
As a result, when it is determined that the input is an operation input from the LCD panel 11 (step S13: YES), the input determination unit 311 subsequently determines whether the operation is a tap or a drag ( Step S14).
[0161]
If it is determined that the tap is selected (step S14: YES), the input determination unit 311 determines whether or not the position indicated by the stylus pen 20 is included in any of the menu display areas 31 (step S14). S15).
[0162]
As a result, when it is determined that it is included in any one (step S15: YES), the application activation control unit 320 specifies the menu display area 31 included in the indicated position and is displayed in the specified area. The application program 411 corresponding to the currently displayed menu display is called and executed (step S16).
[0163]
Then, when the execution of the application program 411 is terminated (step S17: YES), the processing unit 300 proceeds to step S12 and waits for an operation input subsequently performed.
[0164]
If it is determined in step S15 that the position indicated by the stylus pen 20 is not included in any menu display area 31 (step S15: NO), the processing unit 300 proceeds to step S12, and then continues. Wait for operation input to be made.
[0165]
If it is determined in step S14 that the operation input from the LCD panel 11 is not a tap, that is, a drag (step S14: NO), the input determination unit 311 determines the drag start instruction position P.₀As well as the obtained coordinate value as the immediately preceding designated position P._n-1Is set (step S18). At the same time, the movement target setting unit 312 sets the continuous stationary time to “0” (step S19).
[0166]
Next, in FIG. 22, when a predetermined time (specifically, “Δt”) has elapsed (step S20: YES), the input determination unit 311 determines the presence or absence of tap-out (step S21).
[0167]
As a result, when it is determined that it has not been tapped out (step S21: NO), the input determination unit 311 determines that the current indication position P_nIs acquired (step S22). Then, the acquired current indication position P_n, And immediately before indicated position P_n-1Based on the above, the movement target setting unit 312 moves the movement target pointer 42.
[0168]
That is, as described with reference to FIGS._n, And immediately before indicated position P_n-1The drag direction is calculated according to the magnitude of the Y coordinate value. Based on this drag direction, the movement direction of the movement target pointer 42 is calculated. At the same time, the movement distance Δy of the drag is calculated from the displacement of the Y coordinate value. Then, referring to the movement distance calculation formula 428, the movement distance Δw of the movement target pointer 42 is calculated based on the movement distance Δy (step S23).
[0169]
In this way, when the movement direction of the movement target pointer 42 and the movement distance Δw are calculated, the movement target setting unit 312 adds the movement target number to a value obtained by adding / subtracting the movement distance Δw according to the movement direction. Update (step S24).
[0170]
Next, the movement target setting unit 312 compares the updated movement target number with the minimum menu number (ie, “1”) (step S25).
[0171]
As a result, when the movement target number is less than the minimum value of the menu number (step S25: NO), the movement target setting unit 312 sets the minimum value of the menu number as the movement target number (step S26). ). Thereafter, the process proceeds to step S29.
[0172]
In step S25, when the movement target number is equal to or greater than the minimum value of the menu number (step S25: YES), the movement target setting unit 312 continues with the movement target number and the maximum value of the menu number ( That is, “N”) is compared (step S27).
[0173]
As a result, when the movement target number exceeds the maximum value of the menu number (step S27: NO), the movement target setting unit 312 sets the maximum value of the menu display body as the movement target number ( Step S28). Thereafter, the process proceeds to step S29.
[0174]
In this way, when the movement target number is compared with the minimum / maximum value of the menu number and the movement target number is updated based on the comparison result, the scroll speed control unit 313 then displays the current position number and the movement target number. Based on the above, the scroll direction and the scroll speed v are calculated (step S29).
[0175]
That is, as described with reference to FIGS. 6 and 7, the scroll direction is calculated according to the current position number and the size of the movement target number.
At the same time, the inter-item distance w, that is, the difference between the current position number and the movement target number is calculated, the scroll speed calculation formula 427 is referred to, and the scroll speed v is calculated based on the inter-item distance w.
[0176]
Thus, when the scroll direction and the scroll speed v are calculated, the scroll speed control unit 313 then determines whether or not the calculated scroll speed is “0” (step S30).
[0177]
As a result, when it is determined that the scroll speed is “0” (step S30: YES), the scroll speed control unit 313 updates the continuous stationary time to a value obtained by adding “Δt” (step S31). .
On the other hand, when it is determined that the scroll speed is not “0” (step S30: NO), the scroll speed control unit 313 updates the continuous stationary time to “0” (step S32).
[0178]
When the continuous stationary time is updated, the scroll speed control unit 313 then displays the current designated position P_nTo the immediately preceding indication position P_n-1(Step S33). Then, it transfers to step S20 and repeats the same process.
[0179]
If it is determined in step S21 that tap-out has been made (step S21: YES), then the application activation control unit 320 compares the continuous stationary time with the activation standby reference time (step S34).
[0180]
As a result, when it is determined that the continuous stationary time is equal to or longer than the activation standby reference time (step S34: YES), the application activation control unit 320 displays the menu display body of the menu number indicated by the current position number, that is, the current The application program 411 corresponding to the menu display body that is the selection candidate is called and executed (step S35).
Then, when the execution of the application program 411 is finished (step S36: YES), the process proceeds to step S12 and waits for an operation input made subsequently.
[0181]
If it is determined in step S34 that the continuous stationary time is less than the activation standby reference time (step S34: NO), the processing unit 300 proceeds to step S12 and waits for an operation input to be performed subsequently. To do.
[0182]
If it is determined in step S13 that the operation input by the input unit 100 is an input from the side controller 14 (step S13: NO), then in FIG. 23, the input determination unit 311 Is “push” or “up / down” input (step S37).
[0183]
As a result, when it is determined that the side controller 14 is “push in” (step S37: YES), the application activation control unit 320 is a menu display body of the menu number indicated by the current position number, that is, the current selection candidate. An application program 411 corresponding to a certain menu display is called and executed (step S38).
When the execution of the application is finished (step S39: YES), the process proceeds to step S12 and waits for an operation input to be made subsequently.
[0184]
If it is determined in step S37 that the input is “up / down” of the side controller 14 (step S37: NO), then the input determination unit 311 indicates that the input is a long press input. It is determined whether or not there is (step S40).
[0185]
As a result, if it is determined that the input is not a long press (step S40: NO), the movement target setting unit 312 moves the movement target pointer 42 based on the input direction.
[0186]
That is, as described with reference to FIGS. 12 and 13, the movement direction of the movement target pointer 42 is calculated based on the input direction. Then, according to the movement direction, the movement target number is updated to a value obtained by adding / subtracting “1” (step S41).
[0187]
Next, similarly to steps S25 to S28, the movement target setting unit 312 compares the movement target number with the minimum value / maximum value of the menu number, and updates the movement target number according to the comparison result (step S42). The scroll speed control unit 313 calculates the scroll direction and the scroll speed v based on the current position number and the movement target number (step S43).
Thereafter, the process proceeds to step S12, and a subsequent operation input is waited for.
[0188]
In Step S40, when it is determined that the input of “up / down direction” of the side controller 14 is a long press input (Step S40: YES), the input determination unit 311 has passed the initial standby time Tf. (Step S44: YES), it is determined whether or not the long press input is continued (Step S45).
[0189]
As a result, when it is determined that the long press input is continued (step S45: YES), the movement target setting unit 312 determines the movement target pointer 42 based on the input direction as in steps S41 to S42. The movement direction is calculated, and the movement target number is updated to a value obtained by adding / subtracting “1” according to the movement direction (step S46). Next, the movement target number is compared with the minimum value / maximum value of the menu number, and the movement target number is updated based on the comparison result (step S47).
[0190]
Similarly to step S43, the scroll speed control unit 313 calculates the scroll direction and the scroll speed v based on the current position number and the movement target number (step S48).
[0191]
Thereafter, when the repeat time Tr further passes (step S49: YES), the processing unit 300 proceeds to step S45 and repeats the same processing.
[0192]
If it is determined in step S45 that the long press input has not been continued (step S45: NO), the processing unit 300 proceeds to step S12 and waits for a subsequent operation input.
[0193]
Although not shown in FIGS. 21 to 23, the present process is terminated as follows. That is, when the input unit 100 instructs the PDA 1 to be turned off, the processing unit 300 terminates the application being executed and terminates the display of the menu screen 30 being displayed on the display unit 200. The process ends.
[0194]
With the configuration described above, dragging is possible on the entire menu screen 30 on which a plurality of menu display bodies are displayed, that is, on the entire main display area 11a of the LCD panel 11, and the menu display bodies can be scrolled by the dragging. Is executed. Therefore, in order to scroll the user, the user only needs to perform dragging at intervals of drawing an arbitrary line.
[0195]
Further, since the menu display body displayed in the selection candidate display area 32 becomes a selection candidate as a result of scrolling, it is possible to realize a scroll instruction and selection of the menu display body with a simple operation of one drag. In addition, the operability can be improved.
[0196]
The application of the present invention is not limited to the above-described embodiment, and can be changed as appropriate without departing from the spirit of the present invention.
[0197]
For example, in the above-described embodiment, the menu display body group 40 has a plurality of menu display bodies arranged in one column direction, but this may be arranged in the row direction. They may be arranged in an arbitrary arrangement such as bidirectional in the column / row direction.
[0198]
Further, the moving direction of the menu display body group 40 is set to the two upward / downward directions, but may be an arbitrary direction such as a left / right direction or an oblique direction depending on how the menu display bodies are arranged. In this case, the scroll direction of the menu display body is the above arbitrary direction.
[0199]
5, the menu screen 30 is fixed and the menu display body group 40 is moved. However, the menu display body group 40 may be fixed and the menu screen 30 may be moved. . Furthermore, both the menu screen 30 and the menu display body group 40 may be moved.
[0200]
As shown in FIG. 24, the menu display body group 40 is arranged in the virtual space, and the menu screen body 40 is viewed from an arbitrary virtual camera F in the virtual space. It may be 30.
[0201]
According to (a) of the figure, the menu display body displayed on the menu screen 30 is scrolled by moving the virtual camera F in parallel in the arrangement direction of the menu display body group 40. Conversely, the virtual camera F may be fixed and the menu display body group 40 may be moved in parallel in the arrangement direction.
[0202]
Further, according to FIG. 25B, when the visual line direction of the virtual camera F is oblique with respect to the menu display body group 40, a menu screen 30 having a depth is displayed as shown in FIG. ,Is displayed.
[0203]
Thus, scroll display can be realized by moving the virtual camera F with the line of sight directed to the virtual plane on which the menu display body is disposed, that is, the menu display body group 40. Therefore, scroll control in the virtual space can be more easily realized.
[0204]
In addition, the menu display body group 40 includes a plurality of menu display bodies arranged on a virtual plane. However, as shown in FIG. It may be a curved surface.
In this case, the menu screen 30 is displayed as shown in FIG. 6B by rotating the cylinder or moving the virtual camera F along the side of the cylinder. That is, the size or the like of the displayed menu display body changes, and a three-dimensional menu screen display can be realized.
[0205]
The selection candidate display area 32 is fixed to the menu screen 30, but may be variable.
[0206]
In this case, for example, it can be linked with scrolling. That is, as shown in FIG. 27A, when the menu display body at the top of the menu display body group 40 matches the menu display area 31a of the menu screen 30, the selection candidate display area 32 is Menu display area 31a. Then, the selection candidate display area 32 is sequentially changed to menu display areas 31b, 31c,.
[0207]
Then, when scrolling to the menu display body located approximately in the middle of the menu display body group 40, the selection candidate display area 32 is set to the approximate center of the menu display area 31, that is, the menu display area 31c, as shown in FIG. And
When the menu display body at the bottom coincides with the menu display area 31e as shown in FIG. 5C, the selection candidate display area 32 is set as the menu display area 31e. .
[0208]
Further, the selection candidate display area 32 may be arbitrarily changed by an instruction input by the user.
[0209]
Also, in the above embodiment, the application corresponding to the menu display body that has transitioned to activation standby is started by stopping dragging and tapping out after a certain time or more in that state. The application corresponding to the menu display that is a selection candidate at the time of tapping out may be activated regardless of whether it is waiting for activation.
[0210]
The current position number is the menu number of the menu display indicated by the current position pointer 41, that is, an integer, but it may be a positive real number. That is, for example, in FIG. 6, the current position pointer 41 indicates “application D”. When the menu display body group 40 moves upward, the menu display body indicated by the current position pointer 41 changes from “application D” to “application E”. That is, the current position number digitally changes from “4” to “3”. This numerical value is changed as a real number.
[0211]
Accordingly, when the current position number takes a real value, the scroll speed v smoothly changes in a state close to the curve shown in FIG. This makes it possible to realize a smoother scroll, for example, the scroll immediately after the end of the drag is smoothly decelerated.
[0212]
Furthermore, in the above embodiment, the present invention is applied to the PDA. However, it is needless to say that the present invention may be applied to other portable information terminal devices, for example, cellular phones. Furthermore, the present invention may be applied to electronic devices such as set-top boxes, PCs, and game devices. In this case, a display such as a TV connected to the electronic device corresponds to the display unit 200.
[0213]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, while improving the operativity of a menu display in a portable information terminal device provided with a touch panel, it becomes possible to provide the operation feeling only by a touch panel.
[Brief description of the drawings]
FIG. 1 is an external view of a PDA according to the present embodiment.
FIG. 2 is a diagram showing a configuration of a menu screen.
FIG. 3 is a display example of a menu screen.
FIG. 4 is a display example of a menu screen.
FIG. 5 is a diagram illustrating the concept of scrolling.
FIG. 6 is a diagram illustrating calculation of a scroll direction and a scroll speed v.
FIG. 7 is a diagram showing a relationship between an inter-item distance w and a scroll speed v.
FIG. 8 is a diagram illustrating drag input of a stylus pen.
FIG. 9 is a diagram illustrating a relationship between an instruction position, a drag direction, and a movement distance Δw.
FIG. 10 is a diagram illustrating a relationship between a drag direction and a movement direction of a movement target pointer.
FIG. 11 is a diagram illustrating a relationship between a drag movement distance Δy and a movement target pointer movement distance Δw;
FIG. 12 is a diagram illustrating movement of a movement target pointer.
FIG. 13 is a diagram illustrating a relationship between an input direction of a side controller and a moving direction of a movement target pointer.
FIG. 14 is a diagram illustrating movement of a movement target pointer.
FIG. 15 is a diagram illustrating movement of a movement target pointer.
FIG. 16 is a diagram illustrating the timing of movement of the movement target pointer.
FIG. 17 is a diagram illustrating an example of a menu screen.
FIG. 18 is a block diagram showing a functional configuration of a PDA.
FIG. 19 is a diagram showing a configuration of menu display body data.
FIG. 20 is a diagram showing a configuration of scroll target data, designated position data, scroll control data, and application activation condition data.
FIG. 21 is a flowchart illustrating the operation of a PDA.
FIG. 22 is a continuation of the flowchart of FIG.
FIG. 23 is a continuation of the flowchart of FIG.
FIG. 24 is a diagram illustrating a modification of the present embodiment.
FIG. 25 is a diagram illustrating a modification of the present embodiment.
FIG. 26 is a diagram illustrating a modification of the present embodiment.
FIG. 27 is a diagram illustrating a modification of the present embodiment.
[Explanation of symbols]
1 PDA
10 housing
11 LCD panel
12 memory slots
13 Interface connector
14 Side controller
15 Escape key
16 Power key
17 Stylus pen storage
18 Control unit
20 Stylus pen
100 input section
200 display section
300 processing units
310 Menu display control unit
311 Input determination unit
312 Moving target setting unit
313 Scroll speed control unit
314 Scroll display control unit
320 Application start control unit
400 storage unit
411 Application program
412 Control program
421 Menu screen data
422 Menu display data
423 Scroll target data
424 Instructed position data
425 Scroll control data
426 Application start condition data
427 Scroll speed calculation formula
428 Movement distance calculation formula

Claims (14)

A portable information terminal device comprising a display unit configured integrally with a touch panel and displaying all or part of a plurality of information display bodies arranged in a predetermined arrangement in a predetermined display area of the display unit. ,
Setting means for setting a selection candidate position in the predetermined display area;
Scroll means for scrolling and displaying the information display body when a drag operation is performed on the touch panel;
First determining means for determining an information display body displayed at the selection candidate position as a selection candidate;
Storage means for storing a plurality of programs corresponding to all or part of the plurality of information display bodies;
Tap-out determination means for determining tap-out of the drag operation;
When there is a program corresponding to the information display body determined as the selection candidate by the first determination means, and when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after the drag operation is stopped Starting means for starting the program;
The portable information terminal device further comprises a drag operation in the entire predetermined display area. A display unit configured integrally with the touch panel is provided, and all or part of a virtual surface, which is a curved surface on which a plurality of information display bodies are arranged, viewed from the virtual camera is displayed in a predetermined display area of the display unit. A portable information terminal device,
Setting means for setting a selection candidate position in the predetermined display area;
Scroll means for scroll-displaying the information display body by moving at least one of the virtual camera and the virtual surface when a drag operation is performed on the touch panel;
First determining means for determining an information display body displayed at the selection candidate position as a selection candidate;
Storage means for storing a plurality of programs corresponding to all or part of the plurality of information display bodies;
Tap-out determination means for determining tap-out of the drag operation;
When there is a program corresponding to the information display body determined as the selection candidate by the first determination means, and when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after the drag operation is stopped Starting means for starting the program;
The portable information terminal device further comprises a drag operation in the entire predetermined area. The portable information terminal device according to claim 1 or 2,
When a tap operation is performed within the predetermined display area, the information display body displayed at the tap position is determined as a selection candidate instead of the information display body selected as a selection candidate by the first determination unit. Second determining means,
A portable information terminal device further comprising: The portable information terminal device according to claim 3,
When the determination by the second determination unit is made, the activation unit has a program corresponding to the information display body determined as a selection candidate by the second determination unit among the programs stored in the storage unit In the case, the portable information terminal device is characterized by starting the program. The portable information terminal device according to any one of claims 1 to 4,
Target scroll amount setting means for setting a target scroll amount in accordance with the operation amount of the drag operation;
Target scroll amount changing means for changing the target scroll amount set by the target scroll amount setting means in accordance with the drag speed of the drag operation;
Further comprising
The scroll means controls the speed of scroll display according to the remaining scroll amount which is the difference between the target scroll amount changed by the target scroll amount changing means and the existing scroll amount. Information terminal device. A portable information terminal device according to any one of claims 1 to 5,
The portable information terminal device, wherein the setting means moves the selection candidate position in accordance with scroll display by the scroll means. A computer of a portable information terminal device having a display unit integrated with a touch panel displays all or part of a plurality of information display bodies arranged in a predetermined arrangement in a predetermined display area of the display unit A display control program for causing
The computer,
Setting means for setting a selection candidate position in the predetermined display area;
Scroll means for scrolling and displaying the information display body when a drag operation is performed on the touch panel;
First determination means for determining an information display body displayed at the selection candidate position as a selection candidate;
Storage means for storing a plurality of programs corresponding to all or part of the plurality of information display bodies;
Tap-out determination means for determining tap-out of the drag operation in a scroll stop state for a predetermined time or more;
When there is a program corresponding to the information display body determined as a selection candidate by the first determination means, and when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after the drag operation is stopped Starting means for starting the program,
Display control program to function as. A computer of a portable information terminal device provided with a display unit integrally formed with a touch panel has the whole or a part of a virtual surface, which is a curved surface provided with a plurality of information display bodies, viewed from a virtual camera. A display control program for displaying in a predetermined display area of a display unit,
The computer,
Setting means for setting a selection candidate position in the predetermined display area;
Scroll means for scrolling and displaying the information display body by moving the virtual camera when a drag operation is performed on the touch panel;
First determination means for determining an information display body displayed at the selection candidate position as a selection candidate;
Storage means for storing a plurality of programs corresponding to all or part of the plurality of information display bodies;
Tap-out determination means for determining tap-out of the drag operation in a scroll stop state for a predetermined time or more;
When there is a program corresponding to the information display body determined as a selection candidate by the first determination means, and when the time until the tap-out determination by the tap-out determination means exceeds a predetermined time after the drag operation is stopped Starting means for starting the program,
Display control program to function as. A display control program according to claim 7 or 8,
The computer,
When a tap operation is performed within the predetermined display area, the information display body displayed at the tap position is determined as a selection candidate instead of the information display body selected as a selection candidate by the first determination unit. Further function as a second determining means,
When the determination by the second determination unit is made, the activation unit has a program corresponding to the information display body determined as a selection candidate by the second determination unit among the programs stored in the storage unit In this case, a display control program that starts the program. A display control program according to any one of claims 7 to 9,
The computer,
A target scroll amount setting means for setting a target scroll amount according to the operation amount of the drag operation;
Target scroll amount changing means for changing the target scroll amount set by the target scroll amount setting means in accordance with the drag speed of the drag operation;
Further function as
The scroll means controls the speed of scroll display according to the remaining scroll amount that is the difference between the target scroll amount changed by the target scroll amount changing means and the existing scroll amount. program. A plurality of information display elements arranged in a predetermined arrangement with respect to a portable information terminal device that includes a display unit integrally formed with a touch panel and can be dragged over a predetermined display area of the display unit. A display control method for displaying all or part of the display in the predetermined display area,
A setting step of setting a selection candidate position in the predetermined display area;
A scrolling step of scrolling and displaying the information display body when a drag operation is performed on the touch panel;
A first determination step of determining an information display body displayed at the selection candidate position as a selection candidate;
A storage step of storing a plurality of programs corresponding to all or a part of the plurality of information display bodies;
A tap-out determination step of determining tap-out of the drag operation in a scroll stop state for a predetermined time or more;
When there is a program corresponding to the information display body determined as a selection candidate in the first determination step, and when the time until the tap-out determination in the tap-out determination step exceeds a predetermined time after the drag operation is stopped A starting process for starting the program;
A display control method comprising: A plurality of information display bodies viewed from a virtual camera are provided for a portable information terminal device that includes a display unit that is configured integrally with a touch panel and can be dragged over the entire predetermined display area of the display unit. A display control method for displaying all or part of a virtual surface that is a curved surface in the predetermined display area,
A setting step of setting a selection candidate position in the predetermined display area;
A scrolling step of scrolling and displaying the information display body by moving the virtual camera when a drag operation is performed on the touch panel;
A first determination step of determining an information display body displayed at the selection candidate position as a selection candidate;
A storage step of storing a plurality of programs corresponding to all or a part of the plurality of information display bodies;
A tap-out determination step of determining tap-out of the drag operation in a scroll stop state for a predetermined time or more;
When there is a program corresponding to the information display body determined as a selection candidate in the first determination step, and when the time until the tap-out determination in the tap-out determination step exceeds a predetermined time after the drag operation is stopped A starting process for starting the program;
A display control method comprising: The display control method according to claim 11 or 12,
When a tap operation is performed in the predetermined display area, instead of the selection candidate information display body determined as the selection candidate in the first determination step, the information display body displayed at the tap position is selected as the selection candidate. A second determination step to determine;
When the determination is made in the second determination step, if there is a program corresponding to the information display body determined as a selection candidate in the second determination step among the programs stored in the storage step, Starting the program;
A display control method comprising: A display control method according to any one of claims 11 to 13,
A target scroll amount setting step for setting a target scroll amount according to the operation amount of the drag operation;
A target scroll amount changing step of changing the target scroll amount set in the target scroll amount setting step according to the drag speed of the drag operation;
A step of controlling the speed of scroll display according to a remaining scroll amount which is a difference between the target scroll amount changed in the target scroll amount changing step and the existing scroll amount;
A display control method comprising:

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