JP4921452B2 - Information display apparatus and method - Google Patents

Description

  The present invention relates to an information display apparatus and method capable of scrolling and displaying information displayed on a display screen.

  In recent years, information display devices that display information, for example, a map, on a display screen of a computer or the like are known. The user recognizes the map displayed on the display screen and confirms the position of the feature. Since the size of the display screen is finite, features located outside the map displayed on the display screen are not displayed on the display screen. In order to recognize a feature that is not displayed on the display screen, the user moves, that is, scrolls, the map on the display screen by touching the display screen with a finger or the like.

  However, if the speed at which the map is scrolled, that is, the scrolling speed is a constant value, in order to refer to the map at a place away from the currently displayed map, scroll for a long time or the scale of the map. After changing the map, it is necessary to scroll the map to a desired point and restore the original scale.

In order to solve this, there is known an information display device in which a pressure-sensitive sensor is provided on a display screen, a user senses a pressure that touches the display screen, and a map scrolling speed is changed according to the pressure ( Patent Document 1).
Japanese Patent Application Laid-Open No. 2002-213989

  In this configuration, the information display device must include a pressure sensor, which complicates the device and increases the cost. Moreover, the pressure which contacts a display screen has an individual difference, and it is difficult to determine the speed according to a pressure beforehand. Further, it is difficult for the user to intuitively understand how much pressure is applied and what scroll speed is obtained.

  The present invention has been made in view of such a problem, and sets the scroll speed based on the contact position on the display screen by the user by the touch operation on the display screen, and displays the information displayed on the display screen. It is an object of the present invention to obtain an information display device capable of quickly scrolling and displaying desired information.

  The information display device according to the first invention of the present application includes a display screen for displaying information, a contact position acquisition unit for detecting a contact position on the display screen by a contact operation on the display screen, and a contact position detected by the contact position acquisition unit A distance calculation unit for obtaining a distance between the display screen and a predetermined position of the display screen, a scroll speed determination unit for determining a scroll speed of information displayed on the display screen according to the distance obtained by the distance calculation unit, and a scroll speed determination unit And a scroll control unit that scrolls information displayed on the display screen in accordance with the determined scroll speed.

  The display screen has a rectangular shape, and the edge of the display screen is suitable for the predetermined position.

  The display screen may have a rectangular shape, and the predetermined position may be a corner portion of the display screen.

  The display screen may be circular and the predetermined position may be the center position of the display screen.

  The information display device includes a direction calculation unit for obtaining a direction formed by the contact position detected by the contact position acquisition unit and a predetermined position on the display screen, and scrolling of information displayed on the display screen according to the direction obtained by the direction calculation unit It is preferable to further include a scroll direction determining unit that determines the direction.

  The scroll speed determination unit preferably increases the scroll speed as the distance between the contact position detected by the contact position acquisition unit and the predetermined position on the display screen increases.

  The display screen has a constant velocity region at the outer edge, and when the contact position detected by the contact position acquisition unit is in the constant velocity region, the scroll speed determination unit preferably determines the scroll speed to the maximum speed.

  It is preferable that the display screen has a stop area in the center, and when the contact position detected by the contact position acquisition unit is within the stop area, the scroll speed determination unit stops scrolling.

  The display screen has a constant velocity region at the outer edge, a stop region at the center, and an adjustment region between the constant velocity region and the stop region, and the contact position detected by the contact position acquisition unit is within the constant velocity region. The scroll speed determination unit determines the scroll speed as the maximum speed HiS, and when the contact position detected by the contact position acquisition unit is within the stop region, the scroll speed determination unit determines the scroll speed to 0 and acquires the contact position. When the contact position detected by the section is closest to the stop area in the adjustment area, the scroll speed determination section determines the scroll speed as the minimum speed LiS, and the scroll speed determination section determines the scroll speed in the adjustment area as the contact position. As the distance L between the contact position detected by the acquisition unit and the edge closest to the contact position increases, it is preferable to increase linearly from the lowest speed LiS to the highest speed HiS.

The distance from the boundary between the constant velocity region and the adjustment region to the nearest edge is S, the distance from the boundary between the adjustment region and the stop region to the nearest edge is T, the maximum speed is HiS, and the minimum speed is When the distance from the contact position detected by the contact position acquisition unit is L and L is LS, the scroll speed determination unit preferably determines the scroll speed CS in the adjustment region by the following equation. .
CS = (HiS-LoS) / (ST). (LS) + HiS

  When the contact position acquisition unit detects that the contact operation on the display screen has been lost, the scroll speed determination unit may continuously decrease the scroll speed.

  The information is map information, and the display screen preferably displays the map information.

  Preferably, the information display device further includes an information acquisition unit that acquires information from the server, and the display screen displays information acquired by the information acquisition unit.

  The server according to the second aspect of the present invention includes a server recording unit that records information, and a server information transmission unit that reads and transmits predetermined information from the server recording unit when there is a transmission request for the predetermined information from the information display device It is characterized by providing.

  An information display system according to a third invention of the present application includes the information display device and the server.

  An information display method according to a fourth invention of the present application includes a contact position acquisition step for acquiring a contact position on the display screen by a contact operation on the display screen, and a distance calculation step for determining a distance between the contact position and the center position of the display screen. A scroll speed determining step for determining a scroll speed of information displayed on the display screen according to the distance, and an information display for scrolling the information to be displayed on the display screen according to the scroll speed determined in the scroll speed determining step. And a step.

  An information display program according to a sixth invention of the present application includes a contact position acquisition step for acquiring a contact position on the display screen by a contact operation on the display screen, and a distance calculation step for obtaining a distance between the contact position and the center position of the display screen. A scroll speed determining step for determining a scroll speed of information displayed on the display screen according to the distance, and an information display for scrolling the information to be displayed on the display screen according to the scroll speed determined in the scroll speed determining step. And causing the information display device to execute the step.

  According to the present invention, the scroll speed is set based on the contact position on the display screen by the user by the touch operation on the display screen, the information displayed on the display screen is quickly scrolled, and the desired information is displayed. Obtainable information display device.

  Hereinafter, a map display system which is an embodiment of an information display system according to the present invention will be described with reference to the accompanying drawings.

  First, the map display system will be described with reference to FIGS. The map display system includes a map display device 100 that is a client and a map server 200. The map display device 100 is connected to the map server 200 via the Internet 300.

  The map display apparatus 100 includes a display unit 101, a contact position acquisition unit 102, a distance calculation unit 103, a scroll speed determination unit 104, a scroll control unit 105, a direction calculation unit 106, a client storage unit 107, and a client transmission / reception unit 108. Configured.

  The display unit 101 has a rectangular shape extending in the vertical direction, and is a screen that displays information such as map information (see FIG. 2). The display unit 101 has an origin O as the upper left corner, and has a coordinate system including an X axis extending in the short-handed right-hand direction and a Y axis extending downward in the long side. The X-axis maximum value is w, and the Y-axis maximum value is h. The display unit 101 has a constant velocity region 101a at the outer edge, a stop region 101c at the center, and an adjustment region 101b between the constant velocity region 101a and the stop region 101c. The constant velocity region 101a is a region from the short side of the display unit 101 to less than the distance S. The adjustment area 101b is an area from a position separated from the short side of the display unit 101 by a distance S to a position separated from the short side of the display unit 101 by a distance T. The stop area 101c is an area surrounded by a position away from the short side of the display unit 101 by a distance T. The boundary between the constant velocity region 101a and the adjustment region 101b and the boundary between the adjustment region 101b and the stop region 101c are included in the adjustment region 101b.

  The client storage unit 107 records map information. The client transmission / reception unit 108 requests map information from the map server 200. The map server 200 receives the request and transmits map information to the map display device 100. The transmission / reception of map information is performed by, for example, XML asynchronous communication called Ajax. The client transmission / reception unit 108 receives the map information and stores it in the client storage unit 107.

  The contact position acquisition unit 102 is a touch panel that has substantially the same area as the display unit 101 and is provided so as to cover the display unit 101. When the touch sensor is provided in the contact position acquisition unit 102 and the user touches the contact position acquisition unit 102 with a finger or a stylus, the contact position acquisition unit 102 acquires the coordinates of the contact position by the touch sensor.

  The distance calculation unit 103 uses the coordinates of the contact position acquired by the contact position acquisition unit 102 to calculate the distance L from the closest edge to the contact position, and the constant velocity region 101a, the stop region 101c, or the adjustment region 101b. It is determined which of the contact positions is in. When the coordinates of the contact position are represented by (x1, y1), the distance L is y1 if x1> y1, and the distance L is x1 if x1 <y1. When the distance L is 0 <L <S, the contact position is in the constant velocity region 101a. When the distance L is S ≦ L ≦ T, the contact position is within the adjustment region 101b. When the distance L is T <L, the contact position is within the stop region 101c.

The scroll speed determination unit 104 determines the scroll speed CS of the map information according to the distance L calculated by the distance calculation unit 103. When the distance L is in the constant speed region 101a, the scroll speed CS is determined to be the maximum speed HiS. When the distance L is in the stop area 101c, the scroll speed CS is determined to be zero. When the distance L is in the adjustment area 101b, the scroll speed CS is obtained by the following formula (see FIG. 3).
CS = (HiS-LoS) / (ST). (LS) + HiS
Here, LoS is the scroll speed CS at the boundary between the adjustment area 101b and the stop area 101c, S is the distance from the boundary between the constant speed area 101a and the adjustment area 101b, and T is the stop distance from the adjustment area 101b. This is the distance from the boundary with the region 101c to the nearest edge.

  The direction calculation unit 106 calculates the scroll direction. A direction vector Dv from the center point C of the map to the contact position is the scroll direction. Since the coordinates of the center point C of the map are (w / 2, h / 2), the direction vector Dv is represented by (w / 2-x1, h / 2-y1).

  The scroll control unit 105 scrolls the map information displayed on the display unit 101 according to the scroll speed CS determined by the scroll speed determination unit 104 and the direction vector Dv calculated by the direction calculation unit 106. The map to be displayed after scrolling is read from the client storage unit 107. When the client storage unit 107 does not store a map to be displayed after scrolling, the client transmission / reception unit 108 acquires map information from the map server 200.

  Next, the map server 200 will be described.

  The map server 200 mainly includes a server storage unit 220 that records map information and a server transmission / reception unit 210 that transmits / receives data to / from the map display device 100.

  The server storage unit 220 records map information used for displaying a map. The map information consists of a mesh map made up of raster data. The mesh map is obtained by dividing a map of a certain scale into a certain range, and is recorded in association with latitude / longitude information indicating the range of the mesh map and the scale.

  The server transmission / reception unit 210 receives a request for map information from the map display device 100 and transmits the map information to the map display device 100.

  When the server transmission / reception unit 210 receives a request for map information, the server storage unit 220 searches for the map information in response to the request, and transmits the obtained map information to the server transmission / reception unit. The server transmission / reception unit 210 transmits the obtained map information to the map display device 100.

  Next, the scroll process performed in order for the map display apparatus 100 to scroll the map information displayed on the display part 101 is demonstrated using FIG.4 and FIG.5. The scroll process is executed when the map display device 100 is turned on, and is repeatedly executed at predetermined time intervals. At the start of the scroll process, map information is displayed on the display unit 101 (see FIG. 5). In FIG. 5, the boundaries of the constant velocity area 101a, the adjustment area 101b, and the stop area 101c are indicated by broken lines, but are not displayed on the actual display unit 101.

  Referring to FIG. 4, in step S301, the user waits for the user to touch display unit 101 with a finger or a stylus. When the user touches display unit 101, the process proceeds to step S302.

  In step S302, the contact position acquisition unit 102 acquires the coordinates of the contact position. Hereinafter, description will be made assuming that the coordinates of the contact position are (x1, y1).

  In step S303, the distance calculation unit 103 determines whether the coordinates of the contact position are in the constant velocity region 101a, the stop region 101c, or the adjustment region 101b. The distance calculation unit 103 calculates a distance L from the contact position to the nearest edge using the coordinates of the contact position, and determines in which region the contact position is in accordance with the distance L. When the contact position is within the stop area 101c, the process returns to step S301. That is, the scroll speed CS is determined as 0 and the map is not scrolled. When the contact position is in the constant velocity region or the adjustment region 101b, the process proceeds to step S304.

  In step S304, the scroll speed determination unit 104 calculates the scroll speed CS. When the distance L is in the constant speed region 101a, the scroll speed CS is determined to be the maximum speed HiS. When the distance L is in the adjustment region 101b, it can be obtained by the above-described formula.

  In step S305, the direction calculation unit 106 calculates the scroll direction. The scroll direction is represented by a direction vector Dv (w / 2−x1, h / 2−y1).

  In step S306, the scroll control unit 105 scrolls the map information displayed on the display unit 101 according to the scroll speed CS and the direction vector Dv. The map to be displayed after scrolling is read from the client storage unit 107 by the display unit 101. When the client storage unit 107 does not store a map to be displayed after scrolling, the client transmission / reception unit 108 acquires map information from the map server 200. Then, the display unit 101 displays a map to be displayed after scrolling.

  In step S <b> 307, it is determined whether or not the user has removed a finger or a stylus from the display unit 101. If not, the process returns to step S306 and continues to scroll the map. If released, the process proceeds to step S308.

  In step S308, the scrolling of the map is stopped. At this time, the scroll speed CS is decreased stepwise. That is, after the map scroll speed CS gradually decreases, the scrolling stops.

  Then, the scroll process ends.

  As a result, the user can intuitively scroll the map.

  By repeatedly executing the scroll process at predetermined time intervals, when the user changes the contact position, the scroll speed and scroll direction of the map are changed as desired by the user. For example, when the user moves the contact position from the adjustment area 101b to the stop area 101c while touching the screen, the scrolling of the map stops. When the contact position is moved from the adjustment area 101b to the constant speed area 101a, the map scroll speed CS is fixed to the maximum speed HiS. Since the scroll speed and scroll direction of the map can be changed by changing the contact position, the user can more intuitively scroll the map.

  The scroll may be stopped immediately without decreasing the scroll speed CS stepwise.

  Further, the scroll speed CS may not be determined by the above mathematical formula, and may change nonlinearly from the maximum speed HiS to the minimum speed LoS.

  The information acquired from the server and displayed on the display unit 101 is not limited to the map, and may be information that cannot be displayed entirely on the display unit 101. For example, it may be image information having a larger number of pixels than the display unit 101 or information obtained by mapping a plurality of images on a two-dimensional plane according to their attributes.

  The display unit 101 may be circular. At this time, the scroll speed CS is determined according to the distance from the center of the circle.

  The scroll speed CS may be determined according to the distance from the center C of the display unit 101. As the distance from the center C to the contact position increases, the scroll speed CS increases.

  The scroll speed CS may be determined according to the shortest distance from the four corners of the rectangular display unit 101. As the contact position approaches the corner, the scroll speed CS increases.

  Further, the map display device 100 may store the map information in the client storage unit 107 and may not acquire the map information from the map server 200.

1 is a block diagram of a map display system according to the present invention. It is the schematic of a display screen. It is the graph which showed the relationship between the distance L and scroll speed. It is the flowchart which showed the scroll process. It is the figure which showed the map displayed on the display screen.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Map display apparatus 101 Display part 101a Constant velocity area 101b Adjustment area 101c Stop area 102 Contact position acquisition part 103 Distance calculation part 104 Scroll speed determination part 105 Scroll control part 106 Direction calculation part 107 Client storage part 108 Client transmission / reception part 200 Map server 210 Server transmission / reception unit 220 Server storage unit 300 Internet CS Scrolling speed Dv Direction vector

Claims (12)

A display screen having a rectangular shape and displaying information;
A contact position acquisition unit that detects a contact position on the display screen by a contact operation on the display screen;
A distance calculation unit for obtaining a distance between the contact position detected by the contact position acquisition unit and an edge of the display screen;
A scroll speed determination unit that determines a scroll speed of information displayed on the display screen according to the distance obtained by the distance calculation unit;
A scroll control unit that scrolls information displayed on the display screen according to the scroll speed determined by the scroll speed determination unit ;
The display screen has a constant velocity region at the outer edge, a stop region in the center, and an adjustment region between the constant velocity region and the stop region,
When the contact position detected by the contact position acquisition unit is within the constant velocity region, the scroll speed determination unit determines the scroll speed as the maximum speed HiS,
When the contact position detected by the contact position acquisition unit is within the stop area, the scroll speed determination unit determines the scroll speed to be 0,
When the contact position detected by the contact position acquisition unit is closest to the stop region in the adjustment region, the scroll speed determination unit determines the scroll speed to be the lowest speed LiS,
The scroll speed determination unit increases the scroll speed in the adjustment region from the minimum speed LiS to the maximum as the distance L between the contact position detected by the contact position acquisition unit and the edge closest to the contact position increases. Increase linearly up to the speed HiS,
The distance from the boundary between the constant velocity region and the adjustment region is closest to S, and the distance from the boundary between the adjustment region and the stop region is closest to T, and the maximum speed is HiS. When the minimum speed is LiS and the distance from the contact position detected by the contact position acquisition unit is L, the scroll speed determination unit sets the scroll speed CS in the adjustment area to the following Information display device determined by the following formula .
CS = (HiS-LoS) / (ST). (LS) + HiS A direction calculation unit for obtaining a direction formed by the contact position detected by the contact position acquisition unit and the edge of the display screen;
The information display device according to claim 1, further comprising: a scroll direction determination unit that determines a scroll direction of information displayed on the display screen according to the direction obtained by the direction calculation unit. The information display device according to claim 1, wherein the scroll speed determination unit increases the scroll speed as a distance between a contact position detected by the contact position acquisition unit and an edge of the display screen increases.   The display screen has a constant velocity region at an outer edge portion, and when the contact position detected by the contact position acquisition unit is in the constant velocity region, the scroll speed determination unit determines the scroll speed to be a maximum speed. Item 4. The information display device according to Item 1.   The information display according to claim 1, wherein the display screen has a stop area in the center, and the scroll speed determination unit stops the scroll when the contact position detected by the contact position acquisition unit is in the stop area. apparatus.   The information display device according to claim 1, wherein when the contact position acquisition unit detects that the touch operation on the display screen is lost, the scroll speed determination unit continuously decreases the scroll speed.   The information display device according to claim 1, wherein the information is map information, and the display screen displays map information. An information acquisition unit for acquiring the information from the server;
The information display device according to claim 1, wherein the display screen displays information acquired by the information acquisition unit. A server recording unit for recording information;
A server comprising: a server information transmission unit that reads and transmits the predetermined information from the server recording unit when there is a transmission request for the predetermined information from the information display device according to claim 8 . An information display device according to claim 1;
An information display system comprising the server according to claim 9 . A contact position acquisition step of acquiring a contact position on the display screen by a contact operation to the display screen having a rectangular shape ;
A distance calculating step for obtaining a distance between the contact position and the edge of the display screen;
A scroll speed determining step for determining a scroll speed of information displayed on the display screen according to the distance;
An information display step of scrolling and displaying information on the display screen according to the scroll speed determined in the scroll speed determination step ,
The display screen has a constant velocity region at the outer edge, a stop region in the center, and an adjustment region between the constant velocity region and the stop region,
When the contact position acquired in the contact position acquisition step is in the constant speed region, the scroll speed step determines the scroll speed as the maximum speed HiS,
When the contact position acquired in the contact position acquisition step is within the stop region, the scroll speed step determines the scroll speed to be 0,
When the contact position acquired in the contact position acquisition step is closest to the stop area in the adjustment area, the scroll speed determination step determines the scroll speed as the minimum speed LiS,
In the scroll speed determination step, the scroll speed in the adjustment area is increased from the lowest speed LiS to the highest speed as the distance L between the contact position detected by the contact position acquisition unit and the edge closest to the contact position increases. Increase linearly up to the speed HiS,
The distance from the boundary between the constant velocity region and the adjustment region is closest to S, and the distance from the boundary between the adjustment region and the stop region is closest to T, and the maximum speed is HiS. And when the minimum speed is LiS and the distance from the contact position detected by the contact position acquisition unit is L, the scroll speed determination step sets the scroll speed CS in the adjustment area to the following: Information display method determined by the formula
CS = (HiS-LoS) / (ST). (LS) + HiS A contact position acquisition step of acquiring a contact position on the display screen by a contact operation to the display screen having a rectangular shape ;
A distance calculating step for obtaining a distance between the contact position and the edge of the display screen;
A scroll speed determining step for determining a scroll speed of information displayed on the display screen according to the distance;
An information display program for causing an information display device to execute an information display step of scrolling and displaying information on the display screen according to the scroll speed determined in the scroll speed determination step ,
The display screen has a constant velocity region at the outer edge, a stop region in the center, and an adjustment region between the constant velocity region and the stop region,
When the contact position acquired in the contact position acquisition step is in the constant speed region, the scroll speed step determines the scroll speed as the maximum speed HiS,
When the contact position acquired in the contact position acquisition step is within the stop region, the scroll speed step determines the scroll speed to be 0,
When the contact position acquired in the contact position acquisition step is closest to the stop area in the adjustment area, the scroll speed determination step determines the scroll speed as the minimum speed LiS,
In the scroll speed determination step, the scroll speed in the adjustment area is increased from the lowest speed LiS to the highest speed as the distance L between the contact position detected by the contact position acquisition unit and the edge closest to the contact position increases. Increase linearly up to the speed HiS,
The distance from the boundary between the constant velocity region and the adjustment region is closest to S, and the distance from the boundary between the adjustment region and the stop region is closest to T, and the maximum speed is HiS. And when the minimum speed is LiS and the distance from the contact position detected by the contact position acquisition unit is L, the scroll speed determination step sets the scroll speed CS in the adjustment area to the following: Information display program determined by the formula
CS = (HiS-LoS) / (ST). (LS) + HiS