JP3582476B2 - Position display device and position display method - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a portable position display device and a position display method for displaying a relative positional relationship between a reference point and an arbitrarily set target point.
[0002]
[Prior art]
With the development of the information industry in recent years, portable information terminals have been developed one after another. This information terminal may be provided with a function of grasping geographical position information. 2. Description of the Related Art Conventionally, as a method of grasping position information in an information terminal, a method of displaying information on electronic map data (hereinafter referred to as “map data”) and a method of displaying information such as latitude and longitude numerically have been widely used. I have.
[0003]
In the method using the map data, it is necessary to hold the map data in the information terminal. Therefore, a method of efficiently holding the map data in the information terminal and a method of acquiring the map data through a network have been devised. However, it is impractical at present to hold all map data in an information terminal.Also, even in a method using a network, a data communication means is provided in the information terminal, and a predetermined set value is set. There is a problem that it must be done. On the other hand, in the method of displaying numerical values without using map data, the above-mentioned problems cannot be considered because the numerical values are simply expressed as numerical values. However, it is difficult for the information terminal operator to easily recognize the position.
[0004]
Conventionally, there is a technique disclosed in Japanese Patent Application Laid-Open No. 7-27844 which solves such a problem. In this prior art, the next stopover point is indicated by a “•” mark on the map displayed on the screen so that the position to be displayed, such as the current position or the stopover point, can be easily and accurately confirmed. In addition, in order to make it easier to grasp the distance centered on the waypoint, concentric scales centered on the waypoint are displayed at equal intervals in the display area. Further, in this conventional technique, the current location is further indicated by a “+” mark, and other transit points are indicated by a “•” mark.
[0005]
[Problems to be solved by the invention]
However, an information terminal provided with such concentric scales for displaying geography displays a screen as shown in FIG. 25A in the display area of the display unit. When the display range is changed from this state as shown in FIG. 25B, it is difficult to visually recognize the position accurately due to an optical illusion. Furthermore, when the center position of the display range is moved to an arbitrary position from this display state as shown in FIG. 25C and the display range is moved without changing the scale, the optical illusion is also accurate. There is a problem that it is difficult to visually recognize the position.
[0006]
In addition, a display portion formed using a liquid crystal display (LCD) is usually rectangular, and if a circular scale is used, a portion 123a without a scale as shown in FIG. As shown in FIG. 25E, there is a problem that unusable portions 123b are formed at the four corners of the display area. Therefore, with such a method of using the display area in the display unit, the display area of the display unit cannot be used efficiently.
[0007]
Further, when such a circular scale is used, if the arrow-shaped pointer (cursor) 141 can only move linearly as shown in FIG. 25F, the moving direction in the display area is limited. Therefore, there is a problem that the operability of the operator is deteriorated.
[0008]
Further, when the display unit of the information terminal is a rectangular display area having a long side as shown in FIG. 25 (G), an area 131a such as an explanatory note, a scale, and a name as shown in FIG. There is also a problem that there is a part that is not used even if it is inserted. In addition, the circular scale does not have an accurate circular shape when the resolution of the display unit is low, and there is a problem that the operator cannot clearly recognize the current location and the destination accurately.
[0009]
SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problem and to display a relative positional relationship of target points clearly by effectively using a display area even in a display unit having a small display area and a low resolution. It is an object of the present invention to provide a position display device and a position display method which can be performed.
[0010]
Position display device of the present inventionIs a portable position display device that displays the relative positional relationship of a target point that can be arbitrarily set with respect to a reference point relating to a geographical position, using geographical position information sent from the outside Positioning means for positioning the reference point and the target point,Calculating means for calculating a relative positional relationship of the target point with respect to the reference point based on the positioning result,Grid-like grid lines extending in different directions and orthogonal to each other were providedRadar display area composed of grid area and off-grid areaHaving the aboveCalculationBased on the resultsTarget point locationMeans for displaying a rectangular display objectAnd a change instructing means for setting the reference point at an arbitrary geographical point, and when the display point to be newly added is not at the center of the grid area, Calculate the coordinates of the additional point, additional display means for additionally displaying the display point, if the display point is a display point outside the radar display area, while maintaining the direction of the display point from the center point, Coordinate conversion means for performing coordinate conversion so as to be displayed in an area outside the grid of the radar display area;It is a position display device characterized by comprising.
[0011]
theseAccording to the configuration, the position of the target point that can be arbitrarily set with respect to the reference point relating to the geographical position is determined by using position information sent from the outside.Positioning is performed, and the relative position of the target point with respect to the reference point is calculated based on the positioning result.The display means is provided with orthogonal grid lines extending in different directions from each other.Radar display area composed of grid area and off-grid areaHaving. Also, the display means,Calculation resultBased on the reference pointTarget point locationIs displayed as a rectangular display object.The reference point is configured to be able to be set at an arbitrary geographical point, and when a newly added display point is not set at the center of the grid area, that is, when the reference point is not set, the currently set display point is set. The display point can be added by calculating the coordinates of the additional point with respect to the center point. At this time, if the display point is outside the radar display area, the coordinates can be converted so that the display point is displayed in the area outside the grid of the radar display area while maintaining the direction from the center point to the display point. Therefore, the display point desired by the operator can be additionally displayed, so that the convenience is improved. Further, when the added display point is outside the display area, the display point can be displayed in the area outside the grid while maintaining the direction. The visibility can be improved without changing the display range.
[0012]
The present inventionIn the configuration of claim 1,When the display point is the center of the grid area, the information of the center point of the grid area is replaced with the information of the display point, and the coordinates to be recalculated and displayed for all displayed display points are displayed. Recalculation display means, when the display point is a display point outside the radar display area, the display point is displayed in an area outside the grid of the radar display area while maintaining the direction of the display point from the center point. Coordinate conversion means for converting the coordinates intoIt is characterized by having.
[0013]
theseAccording to the configuration, in addition to the function of the first aspect,When the newly added display point is set at the center of the grid area, that is, when the reference point is set, the information of the currently set center point can be replaced with the information of the display point. At this time, since the position information of the reference point is replaced, the coordinates are newly recalculated for all the display points, and all the display points are redisplayed based on the recalculation result. If the display point is outside the radar display area as a result of the recalculation, coordinate conversion can be performed so that the display point is displayed outside the grid of the radar display area while maintaining the direction from the center point to the display point. . Therefore, it is possible for the operator to freely set the display point at a desired position, and the convenience is improved, and when the added display point is outside the display area, the display point is kept in the area outside the grid while maintaining the direction. Since the display can be performed, the visibility can be improved without changing the display range.
[0014]
The present invention provides, in the structure of claim 1,A cross cursor display means for displaying a cross cursor in the grid area in the radar display area; a cross cursor moving means for moving an intersection of the cross cursor by operating the operation unit up, down, left and right; A display point determining means for determining whether or not there is a display point; and an operation state determining means for determining an operation state of the operation unit. It is characterized in that the type can be selected.
[0015]
theseAccording to the configuration, the claims1In addition to the action ofBy operating the cross cursor with the operation unit, moving to the display unit, and pressing the operation unit button, it is possible to display detailed information associated with the display point. Further, by long-pressing the operation section button, a menu screen for setting a display point can be displayed, and the display point can be set as a center point or a target point.
[0016]
Position display method of the present inventionIs a portable location display method that displays the relative position of a target point that can be set arbitrarily with respect to a reference point related to the geographical position, using geographical position information sent from the outside A positioning step of positioning the reference point and the target point,A calculating step of calculating a relative positional relationship of the target point with respect to the reference point based on the positioning result,Grid-like grid lines extending in different directions and orthogonal to each other were providedRadar display area composed of grid area and off-grid areaHaving the aboveCalculationBased on the resultsTarget point locationDisplay step of displaying a rectangular display objectAnd a change instructing means for setting the reference point at an arbitrary geographical point, and when the display point to be newly added is not at the center of the grid area, Calculating the coordinates of the additional point, an additional display step of additionally displaying the display point, and when the display point is a display point outside the radar display area, while maintaining the direction of the display point from the center point, A coordinate conversion step of performing coordinate conversion so as to be displayed in an area outside the grid of the radar display area;It is characterized by having.
[0017]
theseAccording to the configuration, the position of the target point that can be arbitrarily set with respect to the reference point relating to the geographical position is determined by using position information sent from the outside.Positioning is performed, and the relative position of the target point with respect to the reference point is calculated based on the positioning result.The display means is provided with orthogonal grid lines extending in different directions from each other.Radar display area composed of grid area and off-grid areaHaving. Also, the display means,Calculation resultBased on the reference pointTarget point locationIs displayed as a rectangular display object.The reference point is configured to be able to be set at an arbitrary geographical point, and when a newly added display point is not set at the center of the grid area, that is, when the reference point is not set, the currently set display point is set. The display point can be added by calculating the coordinates of the additional point with respect to the center point. At this time, if the display point is outside the radar display area, the coordinates can be converted so that the display point is displayed in the area outside the grid of the radar display area while maintaining the direction from the center point to the display point. Therefore, the display point desired by the operator can be additionally displayed, so that the convenience is improved. Further, when the added display point is outside the display area, the display point can be displayed in the area outside the grid while maintaining the direction. The visibility can be improved without changing the display range.
[0018]
BookThe invention is claimed4In the configuration ofWhen the display point is the center of the grid area, the information of the center point of the grid area is replaced with the information of the display point, and the coordinates to be recalculated and displayed for all displayed display points are displayed. In the recalculation display step, when the display point is a display point outside the radar display area, the display point may be displayed in an area outside the grid of the radar display area while maintaining the direction of the display point from the center point. And a coordinate conversion step of performing coordinate conversion.
[0019]
theseAccording to the configuration, the claims4In addition to the action ofWhen the newly added display point is set at the center of the grid area, that is, when the reference point is set, the information of the currently set center point can be replaced with the information of the display point. At this time, since the position information of the reference point is replaced, the coordinates are newly recalculated for all the display points, and all the display points are redisplayed based on the recalculation result. If the display point is outside the radar display area as a result of the recalculation, coordinate conversion can be performed so that the display point is displayed outside the grid of the radar display area while maintaining the direction from the center point to the display point. . Therefore, it is possible for the operator to freely set the display point at a desired position, and the convenience is improved, and when the added display point is outside the display area, the display point is kept in the area outside the grid while maintaining the direction. Since the display can be performed, the visibility can be improved without changing the display range.
[0020]
SUMMARY OF THE INVENTION4In the configuration ofA cross cursor display step of displaying a cross cursor in the grid area in the radar display area; a cross cursor moving step of moving an intersection of the cross cursor by operating the operation unit up, down, left and right; A step of determining a display point near the cross cursor for determining whether there is a display point; and an operation state determination step of determining an operation state of the operation unit. It is characterized in that the type can be selected.
[0021]
theseAccording to the configuration, the claims4In addition to the action ofBy operating the cross cursor with the operation unit, moving to the display unit, and pressing the operation unit button, it is possible to display detailed information associated with the display point. By pressing and holding the operation button, a menu screen for setting the display point can be displayed, and the display point can be set to the center point or the target point. It can be carried out.
[0044]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
[0045]
FIG. 1 is a perspective view showing an example of an external appearance of an information terminal 1 to which a position display device as a preferred embodiment of the present invention is applied.
[0046]
The information terminal 1 is a portable information terminal that can be carried by an operator. The information terminal 1 has a function of displaying a relative positional relationship of a target point that can be arbitrarily set with respect to a reference point relating to a geographical position, for example.
[0047]
The information terminal 1 has a main body 3 and a GPS (Global Positioning System) unit 51 (positioning means) in appearance.
[0048]
The main body 3 has, in appearance, a substantially rectangular parallelepiped shape with rounded corners, and a GPS unit 51 described later is provided to be freely opened and closed. The main body 3 has a front surface 3a, a side surface 3b, and the like. A display unit 50 (display means) for displaying the screen 5 is provided on the front surface 3a.
[0049]
The display unit 50 is, for example, a liquid crystal display (LCD). The display unit 50 can display objects displayed on the screen 5 on which display points and target points described later are displayed. Here, the “object” is a general term for a display object displayed on the display unit 50 of the information terminal 1 described later, and refers to a concept including the display points and the like. Further, the main body 3 may be provided with an operation section 52 (operation means) described below.
[0050]
As the operation unit 52, for example, one or both of a tablet device provided along the surface of the display unit 50 and a projecting operation unit (multimedia controller) provided on the side surface 3 b of the main body 3 are used. is there. As the tablet device, for example, any of a pen touch system, a membrane system, an optical system, an acoustic system, a capacitance system, and a pressure detection system that can be operated by a pen-shaped operation tool can be adopted. On the other hand, the multimedia controller is a switch that falls down in two directions perpendicular to each other on the side surface 3b and is pushed into the main body 3 side. In the following description, as an example, the operation unit 52 is described as a multimedia controller.
[0051]
On the other hand, a lid-like member is provided at the tip of the main body 3 so as to be rotatable in the R direction. The lid-like member has a built-in GPS unit 51 provided with an antenna (not shown) for receiving position information from a predetermined artificial satellite. It goes without saying that the GPS unit 51 may be provided with a part of its functions separated from the main body 3. The GPS unit 51 has a function of measuring a current position and a destination using a plurality of artificial satellites. That is, the GPS unit 51 has a function of receiving position information such as latitude and longitude from a plurality of artificial satellites by using the above-described antenna, for example, to grasp the position.
[0052]
Further, the information terminal 1 may have a camera 80. The camera 80 has a predetermined optical system lens, a CCD (Charge Coupled Device), and the like.
[0053]
FIG. 2 is a block diagram showing an example of an electrical configuration of the information terminal 1 of FIG.
[0054]
The information terminal 1 includes a CPU (Central Processing Unit) 63, a ROM (Read Only Memory) 64, a RAM (Random Access Memory) 65, a GPS unit 51, a display unit 50, and a bus 55, and preferably includes an operation unit 52. . Note that the information terminal 1 may include a camera 80 connected to the bus 55. The camera 80 has, for example, a function of taking a digital photograph.
[0055]
The bus 55 has a function of connecting all devices, and is an internal bus having an address bus and a data bus. To this bus 55, a CPU 63, a ROM 64, a RAM 65, a GPS unit 51 and a display unit 50 are connected, and preferably, an operation unit 52 is connected.
[0056]
The CPU 63 controls a ROM 64 and the like connected to the bus 55 in addition to performing processing of a predetermined program. The ROM 64 stores the program, various information, and an automatic adjustment flag described later. Needless to say, the ROM 64 may store map data. The ROM 64 may include a FLASH ROM, which is a rewritable nonvolatile memory. Such a FLASH ROM stores, for example, data downloaded through a network.
[0057]
The RAM 65 has a function as an area for comparing the contents of the memory during the program processing and executing the program. The GPS unit 51 has a function of specifying a position as described above. The operation unit 52 is an operation unit for operating the object displayed on the screen 5 in FIG. By providing such an operation unit 52 in the information terminal 1, an object displayed on the display unit 50 can be freely operated.
[0058]
FIG. 3 is a plan view showing a display example of the screen 5 of FIG. 1, and FIG. 4 is a view showing a configuration example of the spin box 7 of FIG.
[0059]
3 has a title 15, a radar display area 23 (display area), a target direction display area 13, a distance display area 21, a reduced scale display area 29, a center display area 9, a target display area 11, and a button 27. And preferably has a spin box 7 (target changing means).
[0060]
The title 15 has a title of the screen 5, an enlarged display icon 17 and a reduced display icon 19. As the title of the screen 5, for example, "radar" is displayed. The enlarged display icon 17 is an icon operated when the display range of the radar display area 23 is enlarged. On the other hand, the reduced display icon 19 is an icon operated when the display range of the radar display area 23 is reduced.
[0061]
The radar display area 23 has a grid area 31 and an off-grid area 33.
[0062]
The grid area 31 is a rectangular display area for displaying display information indicating a relative positional relationship between a rectangular display point 35 (display object) as a arbitrarily settable target point with respect to the center point 37 (reference point). is there. The grid area 31 is provided with grid lines 25 that extend in mutually different directions and are composed of orthogonal grid lines. The grid line 25 has, for example, two types of grid lines 25a and 25b connecting the vertical and horizontal centers of the grid area 31. The display positions of these grid lines 25a and 25b may be changeable. In the following description, the distance between two adjacent grid lines 25 is referred to as “one grid”.
[0063]
On the other hand, the non-grid area 33 is a rectangular area surrounding the outside of the grid area 31, and the display points 35 that do not fit in the display range of the grid area 31 and the north-south “S” indicated by the grid lines 25a and 25b respectively. , “N” or east-west directions “E”, “W”. When such a non-grid area 33 is provided in the radar display area 23, even if the display point 35 is not originally displayed in the grid area 31 in which the grid lines 25 are provided, the operator can set the display point 35 in any direction. 35 can be recognized.
[0064]
The target direction display area 13 indicates the direction of the display point 35 at the upper right of the out-of-grid area 33 as the destination. The distance display area 21 indicates a distance (35.524 km in the illustrated example) to the destination in the direction displayed in the target direction display area 13. The scale distance display area 29 indicates the distance of one grid of the grid area 31 (5 km in the illustrated example).
[0065]
The center display area 9 is a display area for displaying a geographical (or map) name indicating the position of the center point 37 (reference point) in the grid area 31, and changes the center point 37 to an arbitrary geographical point. be able to. To change the geographical location where the center point 37 is located, by pressing the change instruction section 9a, the geographical name that can be set as the center point 37 is displayed in a list, and the geographical name is changed. Do it by making a selection. In this way, the center display area 9 can set an arbitrary point.
[0066]
The target display area 11 is a display area for displaying a name on a geography (or map) indicating the position of the display point 35 as an arbitrarily settable target point. You can change to any point above. In order to change the geographical location where the display point 35 as the target point is located, a list of geographical names that can be set as the display point 35 as the target point by pressing the change instruction unit 11a is displayed. To select the geographical name. Note that the target display area 11 may be configured so that a waypoint in the middle of the target point can be input. The button 27 is used to acquire the position information measured by the GPS unit 51 and press it to add a display point to the radar display area 23. It is needless to say that another function may be assigned to this button 27 for each screen 5.
[0067]
The screen 5 is provided with a spin box 7 for changing the display range in the grid area 31. As shown in FIG. 4, the spin box 7 includes a target display unit 7a and a target display unit that indicate the position (target position) indicated by the display range of the grid area 31 by a predetermined numerical value (hereinafter, referred to as “display list number”). A first change button 7c provided on one side of the display area 7a for changing the position indicated by the display range of the grid area 31 and a display area of the grid area 31 provided on the other side of the target display section 7a are provided. It has a second change button 7b for changing the indicated position.
[0068]
Here, the display list number is such that, when, for example, positions indicating nine display ranges are prepared as display ranges to be displayed in the grid area 31, which of the nine display ranges indicates the grid area 31. Is a number that indicates whether or not it is displayed in the. When the second change button 7b is pressed when the display list number is, for example, "5/9", the display list number of the target display section 7a is changed to, for example, "4/9", and the display list number is changed. A display range corresponding to “4/9” is displayed in the grid area 31. When the first change button 7c is pressed when the display list number is, for example, "5/9", the display list number of the target display section 7a is changed to, for example, "6/9", and the display list number is changed. A display range whose number corresponds to, for example, “6/9” is displayed in the grid area 31.
[0069]
That is, when the second change button 7b is pressed, the display range of the grid area 31 is changed so that the numerator of the display list number displayed on the target display section 7a is, for example, -1, and the first change button 7c When is pressed, the display range of the grid area 31 is changed such that the numerator of the display list number displayed on the target display section 7a is, for example, +1.
[0070]
According to such a configuration, when the operator of the information terminal 1 attempts to change the display range of the grid area 31, it takes two steps of opening and selecting a display range list corresponding to the display list number. Even if not, the position indicated by the display range of the grid area 31 can be changed by one step of pressing the second change button 7b or the first change button 7c. By operating the second change button 7b and the first change button 7c in the spin box 7, the set target position can be changed freely.
[0071]
The information terminal 1 is configured as described above. Next, an advantage of providing the grid lines 25 in the grid area 31 will be described.
[0072]
The grid region 31 can be changed from the display state shown in FIG. 5A to the display state shown in FIGS. 5B and 5C, but the grid lines 25 are orthogonal. Therefore, the grid line 25 does not look distorted due to an optical illusion or the like. When the operation unit 52 is the multimedia controller, the pointer 39 (cursor) for operating the display point 35 shown in FIG. 5D is limited in the operation direction along the grid line 25 of the grid area 31. Since the pointer 39 moves linearly, it is easy to visually follow the position of the pointer 39 and easily grasp the position. In addition, the route from the position of the pointer 39 to the position of the display point 35 does not make one route in the conventional device shown in FIG. 25F, but in the grid region 31 shown in FIG. Since there are two routes, the operability of the operator is improved.
[0073]
Further, in such a grid area 31, the pointer 39 can arbitrarily move to any part in the grid 25. Further, as can be understood by referring to the shape of the display unit 50 in FIG. 1, the shape of the display area of the display unit 50 such as a liquid crystal display is usually rectangular. Therefore, if the radar display area 23 of FIG. 3 has the shape shown in FIG. 5E, the entire display area of the radar display area 23 can be used efficiently. Further, if the radar display area 23 of FIG. 3 has the shape shown in FIG. 5 (F), the entire area of the radar display area 23 can be efficiently used even if it has a display area 31a for displaying a description, a scale, a name, and the like. As a result, various information can be displayed in the radar display area 23.
[0074]
Also, if an image or a map is to be displayed in the grid area 31 of FIG. 3 based on image data or map data, the image or the map itself is often rectangular in nature. This makes it easy to display images and maps with such shapes and divert them to other functions of the information terminal 1.
[0075]
In recent years, the information terminal 1 as shown in FIG. 1 has been reduced in size, and the display area of the display unit 5 is generally very small and the resolution is low. When trying to draw a circular scale as shown in FIG. 25 (A) or the like on such a display unit 5, a circular sawtooth curve is drawn from a low resolution, and a smooth circular shape is drawn. It is difficult to draw a scale. However, in the grid area 31 of FIG. 3, since the grid lines 25 are composed of only straight lines, they can be represented by smooth straight lines even at a low resolution. Although a small electronic device such as the information terminal 1 cannot be equipped with a CPU capable of performing high-speed calculations, in the present embodiment, a straight line is drawn rather than a curved line in the grid area 31. Since the grid lines 25 are formed, there is no need to mount a CPU capable of high-speed operation, and the cost can be reduced.
[0076]
The information terminal 1 is configured as described above. Next, an operation example (position display method) of the information terminal 1 will be described with reference to FIGS.
[0077]
First, the basic operation of the information terminal 1 will be described. The information terminal 1 uses the GPS unit 51 to position the current position and the destination using a plurality of artificial satellites (positioning step). Then, the information terminal 1 displays the positional relationship of the arbitrarily configurable target point with respect to the reference point on the display unit 50 having the rectangular radar display area 23 provided with the grid lines 25 (display step).
[0078]
Next, a specific operation example of the information terminal 1 will be described.
First operation example
FIG. 6 is a flowchart illustrating the procedure of the “add display point” process as a first operation example of the information terminal 1.
[0079]
FIGS. 7A to 7C, 8 and 9A to 9C are respectively displayed on the display unit 50 of the information terminal 1 in FIG. 1 according to the first operation example in FIG. FIG. 7 is a diagram showing an example of a screen 5 which is displayed.
[0080]
Here, the “display point” refers to a point that can be arbitrarily set and displayed in the radar display area 23 in FIG. 7A or the like, and indicates, for example, a center point 37 that is the center of the radar display area 23 or the current location. A point or a target point 35 indicating a destination.
[0081]
The first operation example of the information terminal 1 indicates an operation of registering (adding) a desired geographical point in the radar display area 23, for example. That is, the operator of the information terminal 1 can register the display point 35 as the target point indicating the destination to be headed in the radar display area 23, for example.
[0082]
In step ST11 of FIG. 6, the operator operates the information terminal 1 of FIG. 1 that displays the screen 5 shown in FIG. 7A, and displays, for example, the destination in the radar display area 23 of the screen 5 shown in FIG. Try to add a display point indicating In step ST12 of FIG. 6, whether or not the added display point is at the center of the grid area 31 is selected.
[0083]
Here, if position information (detailed information) prepared in advance is to be attached to the display point to be added, an arbitrary position on the radar display area 23 is selected, and the screen 5 shown in FIG. Is displayed. Then, when "information acquisition" is selected on this screen 5, the screen 5 shown in FIG. 7C is displayed. When "position index" is selected on this screen 5, the screen 5 shown in FIG. 8 is displayed. For example, by selecting "Migahara Kogen", the display point 35 shown in FIG. 7A is associated with an index indicating the position.
[0084]
When the display point 35 is not set at the center of the grid area 31 of the radar display area 23, in step ST13 of FIG. 6, the coordinates of the display point 35 to be additionally displayed with respect to the current center position are calculated. Next, in step ST14 of FIG. 6, if the display point to be added is the display point 35 in the radar display area 23 shown in FIG. 9A, it is displayed as it is in the grid area 31 of the radar display area 23. On the other hand, if the display point to be added is the display point 35 outside the radar display area 23 as shown in FIG. 9B, the radar display area 23 is maintained while maintaining the direction (direction) of the display point 35 from the center point 37. Are converted so as to be displayed in the non-grid area 33. Therefore, the display point 35 is displayed at the position shown in FIG.
[0085]
On the other hand, when the display point is to be the center of the grid area 31, the information of the current center point 37 shown in FIG. 7A is replaced with the information of the display point 35 to be added in step ST16 of FIG. Next, in step ST17 in FIG. 6, the coordinates are recalculated for all the display points displayed in FIG. 7A at that time. After completion of each coordinate calculation, in Steps ST18 and ST19 in FIG. 6, whether the display point is displayed in the radar display area 23 in FIG. 7A is the same as the processing in Steps ST14 and ST15 in FIG. To process.
[0086]
Then, in step ST20, the coordinates of the display points are calculated again for all the display points displayed in FIG. The displayed display point is not limited to the display point 35 as the illustrated target point, but may be a point indicating another predetermined position displayed in the radar display area 23, for example. In other words, the display points may be displayed with visual distinction such as color coding for each prefecture or city. Further, such display points may be deleted as well as added. In this way, the operator of the information terminal 1 can freely set a display point at a desired position.
Second operation example
FIG. 10 is a flowchart illustrating a second operation example of the information terminal 1.
[0087]
FIGS. 11A to 11C and FIGS. 12A to 12C show examples of the screen 5 displayed on the display unit 50 by the second operation example of the information terminal 1 of FIG. FIG.
[0088]
The second operation example of the information terminal 1 shows a general operation example of the information terminal 1 when the operator operates the operation unit 52 of the information terminal 1 of FIG.
[0089]
In step ST21 of FIG. 10, the operator operates the operation unit 52 of FIG. 1 while the focus is on, for example, the center display area 9 other than the radar display area 23 as shown in FIG. As shown in (B), the selection is made such that the grid area 31 in the radar display area 23 is focused. In step ST22 of FIG. 10, a cross cursor 26 is displayed in the grid area 31 selected as shown in FIG. 11C. In step ST23, the operator operates the operation unit 52 of FIG. 1 up, down, left, and right to move the intersection of the cross cursor 26, for example, linearly along the grid line 25 as shown in FIG. Can be performed (step ST26).
[0090]
If it is determined in step ST23 that the operation unit 52 of FIG. 1 has not been operated up, down, left, or right, it is determined in step ST24 whether the operation unit 52 of FIG. 1 has been pressed. If it is determined in step ST24 that the push is not performed, the process proceeds to step ST25 described later.
[0091]
If it is determined in step ST24 that the press is performed, in step ST27, it is determined whether or not there is a display point near the point. Then, in step ST28, the cross cursor 26 in the grid area 31 shown in FIG. If it is determined in step ST27 that there is a display point, in step ST29, detailed information 43 of the display point is displayed as shown in FIG.
[0092]
On the other hand, in step ST25, it is determined whether or not the operation unit 52 of FIG. 1 has been pressed for a certain period of time. If not, the process returns to step ST21. On the other hand, if it is determined in step ST25 that the button has been depressed long, steps ST27 to ST29 are processed. In step ST29A of FIG. 10, if it is determined in step ST27 that there is a display point, menu 41 is displayed on screen 5 shown in FIG. 12C.
Third operation example
FIG. 13 is a flowchart illustrating a third operation example of the information terminal 1.
[0093]
FIGS. 14A to 21C are diagrams each showing an example of the screen 5 displayed on the display unit 50 by the third operation example of the information terminal 1 in FIG.
[0094]
In the third operation example of the information terminal 1, for example, when the center point or the target point is changed by the operation of the operator, or when the information of the current position obtained from the GPS or the like changes, the operator changes or changes the current position. An operation example is shown in which the display state of the screen 5 is changed so that the user can visually recognize that there has been an error. In this operation example, as an example of changing the display state of the screen 5, for example, an animation for playing back images by sequentially displaying a plurality of images is executed.
[0095]
In step ST31 of FIG. 13, it is detected that the state of the display object or the like has changed due to, for example, a case where the center point or the target point has been changed by the operation of the operator, or a case where the information on the current position obtained from the GPS or the like has changed. are doing. Here, for example, it is assumed that the change instruction unit 11a of the target display area 11 on the screen 5 in FIG. 14A has been operated by the operator, and the display state has changed as shown in FIG. 14B. That is, the list of the target display areas 11 is displayed on the screen 5. When detecting that the display state has changed in step ST31 of FIG. 13, the displayed image is changed in step ST32. In step ST33, the process waits until a certain time has elapsed, and after the certain time has elapsed, the image is changed (step ST34). Next, in step ST35, these processes are repeated up to the set number of steps, and the animation ends.
[0096]
To describe these operations more specifically, a plurality of images for animation are prepared in advance in the information terminal 1, and the animation is executed in the grid area 31 in the radar display area 23 of FIG. . The reproduction of this animation is performed by using the image No. 1, image No. 2,..., Image No. n-1, image No. n, image No. .., image No. 2. Image No. Each image is reproduced in the order of 1. The reproduction of this animation can be set in various ways. 1, image No. 2,..., Image No. n-1, image No. Each image may be reproduced in the order in which n is repeated.
[0097]
More specifically, as a first specific example of this animation reproduction method, a semi-transparent image spreads outward from the center point 37 of the grid area 31 in the order shown in FIGS. The cloud shape enlargement display may be performed as it goes. The reproduction of the animation may be reduced from the outside as shown in FIGS. 16 to 14C. The translucent image 45 has a width of about one grid sandwiched between two grid lines 25 of the grid area 31.
[0098]
As a second specific example of this animation reproducing method, the animation is reproduced in the order shown in FIGS. 17A to 18B as in the first specific example. The second specific example is different in that the width of the translucent image 45a is smaller than the width of the translucent image 45. This makes it possible to sequentially display the translucent image 45a in smaller steps than in the case of the first specific example.
[0099]
Further, as a third specific example of the animation reproduction method, the color indicating the position of the display point 35 may be changed in the order shown in FIGS. 19A to 19C.
[0100]
Further, as a fourth specific example of the animation reproduction method, the shade value of the color indicating the position of the display point 35 may be changed in the order shown in FIGS. 20 (A) to 20 (C). .
[0101]
Further, as a fifth specific example of the animation reproducing method, the size of the display point 35 may be changed in the order shown in FIGS. 21 (A) to 21 (C).
[0102]
In this way, the operator of the information terminal 1 can easily and clearly recognize that the state of the screen 5 or the like has changed. Therefore, the information terminal 1 can increase the degree of recognition of the operator regarding the change in the display state.
Fourth operation example
FIG. 22 is a flowchart showing a fourth operation example of the information terminal 1. FIGS. 23A to 24 show screens 5 displayed on the display unit 50 by the fourth operation example of the information terminal 1 of FIG. It is a figure showing an example of.
[0103]
In the fourth operation example of the information terminal 1, on the screen 5 shown in FIG. 23A, a center point 37 as an arbitrarily set geographical reference point and a display point 35 as a target point are set in the radar display area 23. Automatically adjusts the scale of the geographical display range displayed in the grid area 31 so as to enter the range.
[0104]
In this screen 5, a center point 37 is set so as to be “Map 2 Murai” as displayed in the center display area 9, and a rectangular display point 35 is displayed in the radar display area 23. . By the operation of the operator, as shown in FIG. 23 (B), the center display area 9 is changed to “current position” to change the center point 37 (or the target point) (step ST41). Then, the current location is displayed at the center point 37 in the radar display area 23. Next, in step ST42, the distance between the center point 37 and the target point is calculated. Next, in step ST43, it is confirmed whether the predetermined automatic adjustment flag is “ON” or “OFF”.
[0105]
Here, the automatic adjustment flag is a flag indicating whether or not the scale of the grid area 31 is automatically adjusted. This automatic adjustment flag is set to “ON” when the scale is automatically adjusted so that the positional relationship between the display point 35 and the target point can be visually recognized in the radar display area 23, and is not automatically adjusted. In this case, it is set to “OFF”. The automatic adjustment flag may be provided in a predetermined control menu (not shown) displayed on the screen 5 or may be automatically set to “ON” when the current position is not displayed. .
[0106]
When the automatic adjustment flag is “OFF”, the coordinates of each display point are calculated by operating the enlarged display icon 17 or the reduced display icon 19 in FIG. 2, and the display of each display point is performed based on the coordinates. Is performed (step ST51). In this state, for example, the screen 5 shown in FIG. 23B is displayed.
[0107]
On the other hand, if the automatic adjustment flag is “ON”, it is determined whether or not the target point is located outside the field of the radar display area 23 in FIG. 23B (step ST45 in FIG. 22). That is, when it is determined that the target point is not located outside the field of the radar display area 23 in FIG. 23B, the process proceeds to step ST46 to be described later, and when the target point is located outside the field of the radar display area 23, it will be described later. The process proceeds to step ST47 in FIG.
[0108]
In step ST47, an appropriate scale is calculated in which the center point 37 and the target point shown in FIG. Next, in step ST48, the scale is changed in the reduction direction based on the calculated scale. Next, in step ST49, the positions of the other display points are recalculated according to the changed scale. Then, in step ST50, for example, the automatic adjustment flag is set to “OFF”. Finally, the information terminal 1 displays a screen 5 as shown in FIG. 24 based on the calculated coordinates (step ST51). In this state, the screen 5 shown in FIG. 23B is displayed.
[0109]
On the other hand, in step ST46, it is determined whether or not the target point is near the center point 37 shown in FIG. Here, it is assumed that the display point 35 indicating the target point exists near the center point 37 of the radar display area 23 as shown in FIG. That is, when it is determined in step ST46 that the target point does not exist within, for example, one grid from the center point 37, the display point 35 indicating the target point is displayed as it is in the radar display area 23 (step ST51).
[0110]
Further, if it is determined in step ST46 that the target point exists in the vicinity of the central point 37, for example, within one grid, the same processing as steps ST47 to ST51 is performed except that the scale is changed in the enlargement direction. . In this state, the screen 5 shown in FIG. 24 is displayed. In other words, the scale of the display point 35 as the target point is changed so as to be displayed in the radar display area 23.
[0111]
By doing so, the information terminal 1 can manually or automatically adjust the scale of the radar display area 23 of the screen 5.
[0112]
According to a preferred embodiment of the present invention, even if the information terminal 1 is provided with the display unit 50 having a small radar display area 23 and a low resolution, the radar display area 23 of the display unit 50 is effectively used to clearly It is possible to display the positional relationship of the display point 35 as a rectangular target point that can be arbitrarily set with respect to the center point 37 as a reference point. Further, since the display point 35 as the reference point can be set arbitrarily, the position of the display point 35 as the target point with respect to the arbitrary reference point can be displayed.
[0113]
The present invention is not limited to the above embodiment, and various changes can be made without departing from the scope of the claims.
[0114]
For example, as a means for positioning the current location or the like in the information terminal 1, a positioning means other than the GPS unit 51 using the GPS system may be used.
[0115]
In addition, the information terminal 1 displays that, for example, in addition to a target point indicating a destination, an object indicating an arbitrarily set display point is biased in the radar display area 23 displayed on the display unit 50, The display range of the radar display area 23 may be changed according to the position of the object. In this way, the display position of an object such as a display point in the radar display area 23 displayed on the display unit 50 always becomes an appropriate position. This makes it easier for the operator to visually recognize the display points and the like displayed on the display unit 50.
[0116]
In addition, the display points may be color-coded for each object indicating the position, and needless to say, the shape may be a shape other than a rectangle.
[0117]
Each configuration of the above embodiment can be partially omitted or arbitrarily combined so as to be different from the above.
[0118]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, even if it is a display means with a small display area and a low resolution, the position display apparatus and position display which can use the display area effectively and can clearly display the relative positional relationship of target points. A method can be provided.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an example of the appearance of an information terminal to which a position display device as a preferred embodiment of the present invention is applied.
FIG. 2 is a block diagram showing an example of an electrical configuration of the information terminal shown in FIG. 1;
FIG. 3 is a plan view showing a display example of the screen of FIG. 1;
FIG. 4 is a view showing a display example of a spin box in FIG. 3;
FIG. 5 is a diagram showing a configuration example of a grid area in the radar display area of FIG. 3;
FIG. 6 is a flowchart showing a procedure of “addition of display point” processing as a first operation example of the information terminal.
FIG. 7 is a diagram showing an example of a screen displayed on the display unit of the information terminal of FIG. 1 by the first operation example of FIG. 6;
FIG. 8 is a diagram showing an example of a screen displayed on the display unit of the information terminal of FIG. 1 according to the first operation example of FIG. 6;
FIG. 9 is a diagram showing an example of a screen displayed on the display unit of the information terminal of FIG. 1 by the first operation example of FIG. 6;
FIG. 10 is a flowchart illustrating a second operation example of the information terminal 1;
FIG. 11 is a view showing an example of a screen displayed on a display unit by the second operation example of the information terminal in FIG. 10;
FIG. 12 is a view showing an example of a screen displayed on a display unit by the second operation example of the information terminal in FIG. 10;
FIG. 13 is a flowchart showing a third operation example of the information terminal.
FIG. 14 is a view showing an example of a screen displayed on a display unit by a third operation example of the information terminal in FIG. 13;
FIG. 15 is a view showing an example of a screen displayed on the display unit by the third operation example of the information terminal in FIG. 13;
FIG. 16 is a view showing an example of a screen displayed on the display unit by the third operation example of the information terminal in FIG. 13;
FIG. 17 is an exemplary view showing an example of a screen displayed on the display unit by the third operation example of the information terminal in FIG. 13;
FIG. 18 is a view showing an example of a screen displayed on a display unit by a third operation example of the information terminal in FIG. 13;
FIG. 19 is a view showing an example of a screen displayed on the display unit by the third operation example of the information terminal in FIG. 13;
FIG. 20 is an exemplary view showing an example of a screen displayed on the display unit by the third operation example of the information terminal in FIG. 13;
FIG. 21 is a view showing an example of a screen displayed on the display unit by the third operation example of the information terminal in FIG. 13;
FIG. 22 is a flowchart showing a fourth operation example of the information terminal.
FIG. 23 is an exemplary view showing an example of a screen displayed on the display unit by the fourth operation example of the information terminal in FIG. 22.
24 is a diagram showing an example of a screen displayed on the display unit by the fourth operation example of the information terminal in FIG. 22.
FIG. 25 is a diagram showing an example of a screen on a conventional information terminal.
[Explanation of symbols]
1 Information terminal
7 Spin box (target changing means)
7a Target display section (target display means)
7b Second change button
7c First change button
23 Radar display area
25 grid lines
31 Grid area
35 Display point (display object)
37 Center point (reference point)
39 pointer
41 Detailed Information
50 display part (display means)
51 GPS unit (positioning means)
52 Operation unit (operation means)

Claims (6)

A portable position display device that displays a relative positional relationship of a target point that can be arbitrarily set with respect to a reference point related to a geographical position,
Positioning means for positioning the reference point and the target point using geographical position information sent from the outside,
A calculating means for calculating a relative positional relationship of the target point with respect to the reference point based on the positioning result, and a grid area and a grid provided with orthogonal grid lines extending in different directions from each other. A display unit having a radar display area configured with an outside area, and displaying the positional relationship of the target point on a rectangular display object based on the calculation result;
Change instructing means for setting the reference point to an arbitrary geographical point, and
Additional display means for calculating the coordinates of the additional point with respect to the current center point when the display point to be newly added is not at the center of the grid area, and additionally displaying the display point;
When the display point is a display point outside the radar display area, coordinate conversion for performing coordinate conversion so as to be displayed in an area outside the grid of the radar display area while maintaining the direction of the display point from the center point. Means,
A position display device comprising: When the display point is the center of the grid area, the information of the center point of the grid area is replaced with the information of the display point, and the coordinates to be recalculated and displayed for all displayed display points are displayed. Recalculation display means,
When the display point is a display point outside the radar display area, coordinate conversion for performing coordinate conversion so as to be displayed in an area outside the grid of the radar display area while maintaining the direction of the display point from the center point. position display according to claim 1, characterized in that it comprises a <br/> and means. A portable position display device which is displayed on the display means and is capable of changing a target position indicated by the display range,
Cross cursor display means for displaying a cross cursor in the grid area in the radar display area,
Cross cursor moving means for moving the intersection of the cross cursor by operating the operation unit up, down, left and right,
A cross cursor near display point determining means for determining whether there is a display point near the cross cursor;
Operation state determination means for determining the operation state of the operation unit,
2. The position display device according to claim 1, wherein the type of the detailed information of the display point can be selected according to the pressing time of the operation unit. A portable position display device that displays a relative positional relationship of a target point that can be arbitrarily set with respect to a reference point related to a geographical position,
A positioning step of positioning the reference point and the target point using geographical position information sent from the outside,
Calculating a relative positional relationship of the target point with respect to the reference point based on the positioning result; and a grid area and grid provided with orthogonal grid lines extending in different directions from each other. A display step having a radar display area composed of an outer area and displaying the positional relationship of the target point on a rectangular display object based on the calculation result;
A change instruction step of setting the reference point to an arbitrary geographical point; and
The display points to be newly added, if not in the center of the grid area, and the additional display step of the current center point pairs to calculate the coordinates of the additional point, additionally displays the display points,
When the display point is a display point outside the radar display area, coordinate conversion for performing coordinate conversion so as to be displayed in an area outside the grid of the radar display area while maintaining the direction of the display point from the center point. Steps and
A position display method comprising: When the display point is the center of the grid area, the information of the center point of the grid area is replaced with the information of the display point, and the coordinates to be recalculated and displayed for all displayed display points are displayed. A recalculation display step;
When the display point is a display point outside the radar display area, coordinate conversion for performing coordinate conversion so as to be displayed in an area outside the grid of the radar display area while maintaining the direction of the display point from the center point. The method according to claim 4, further comprising the steps of : A portable position display device which is displayed on the display means and is capable of changing a target position indicated by the display range,
  A cross cursor display step of displaying a cross cursor in the grid area in the radar display area;
A cross cursor movement step of moving the cross cursor intersection by operating the operation unit up, down, left, and right;
Determining a display point near the cross cursor to determine whether there is a display point near the cross cursor;
An operation state determination step of determining an operation state of the operation unit,
5. The position display method according to claim 4, wherein the type of the detailed information of the display point can be selected according to the pressing time of the operation unit.

Images