WO2013137377A1 - Display control device - Google Patents

Abstract

[Problem] To provide a display control device capable of accurately ascertaining the distance to an object that a user wants to know on the spot. [Solution] Map information for reproducing a landscape is displayed on a display unit (22) of a mobile terminal (10), the current location of the mobile terminal (10) is obtained from a GPS receiver (14) as positioning data, the positioning data and the map information are overlapped, and a coordinate point (72J) corresponding to the current location of the mobile terminal (10) is displayed on the display unit (22). A display control unit (50) is provided with an arc-display-determination unit (56) for obtaining the angle of direction in which the mobile terminal (10) is oriented from a direction sensor (16) as direction data, and displaying an arc line (72L) as arc-shaped distance information on the display unit (22), at a determined distance in the direction in which the mobile terminal (10) is oriented, and with the coordinate point (72J) serving as the center and displayed as a spot.

Description

Display control device

The present invention relates to a display control apparatus that is incorporated in a mobile terminal such as a tablet held by a user and displays information on the position and orientation of the user on a display of the mobile terminal in a manner superimposed on map information.

As a terminal device incorporating this type of display control device, for example, in Patent Document 1, on a display device of a portable terminal possessed by a golf player, map information representing a shape such as a tee ground or green is displayed, A technique has been proposed in which the position information of players including other players and distance information within a range where a golf ball is supposed to fly are displayed in superposition with the map information.

Prior to this, the applicant of the present application obtains the current position of the player as positioning data using a GPS receiver provided in the mobile terminal, and displays it on the map information displayed on the display of the mobile terminal. In addition, a position information providing apparatus is proposed in which the player's own position is displayed as a plot, and the direction and distance from the player's own position toward the green are displayed as arc-shaped distance information.

JP 2010-167176 A JP 2004-29363 A

The distance information in Patent Document 1 and Patent Document 2 described above is obtained by plotting positioning data acquired from a position detection device (such as a GPS receiver) of a portable terminal as position information of a player on map information. A fixed distance range toward the determined direction (for example, green or fairway) is displayed as a graphic with the origin.

However, regardless of where the player's position information is on the map information, the distance information that can be obtained is limited to a predetermined direction. Therefore, in order to obtain the hole strategy, the object that the player wants to know on the spot (for example, It is not possible to correctly grasp the distance to the bunkers and forests that hinder play.

Therefore, in view of the above problems, the main object of the present invention is to provide a display control device capable of correctly grasping the distance to an object that the user wants to know on the spot.

In invention of Claim 1, while displaying the map information which reproduces scenery on the indicator of a portable terminal, the present position of the portable terminal is acquired as a positioning data from a position detecting device, and superimposed with the map information. In the display control device that displays the coordinate point corresponding to the current position of the mobile terminal on the display, the azimuth angle of the mobile terminal is obtained from the direction detection device as azimuth data, and the coordinate point is the center, An arc display determination unit that displays arc-shaped distance information on the display at a distance determined in a direction in which the portable terminal is facing is provided.

According to a second aspect of the present invention, the arc display determination unit includes, as the distance information, the coordinate point, an arc line at a certain distance centered on the coordinate point, the coordinate point, and one point of the arc line. The distance information is wiped and displayed so that the boundary line moves within the range of both ends of the arc line.

In the invention of claim 3, the arc display determination unit is configured to wipe display the distance information so that the boundary line reciprocates.

In the invention of claim 4, the arc display determination unit is configured to wipe display the distance information so that the boundary line moves in one direction.

In the invention of claim 5, the arc display determination unit is configured to start the movement of the boundary line in synchronization with the acquisition of the positioning data and the azimuth data.

Further, in the invention of claim 6, the arc display determination unit is configured to display the boundary line darkly and gradually display it lightly as the boundary line is separated.

Further, in the invention of claim 7, the arc display determination unit is configured to display the direction in which the portable terminal is facing with the arrow on the display together with the distance information.

In the invention of claim 8, the arc display determination unit is configured to display the arrow in synchronization with the acquisition of the positioning data and the azimuth data.

Further, in the invention of claim 9, the arc display determination unit is configured to display the distance information in a range of angles equal to the left and right from the arrow.

Further, in the invention of claim 10, the arc display determination unit is configured to display the base end of the arrow so as to coincide with the coordinate point.

Further, in the invention of claim 11, the arc display determination unit is configured to display the area semi-transparently so that the map information can be seen in the area overlapping the distance information.

According to the first aspect of the present invention, the display of the portable terminal owned by the user displays the map information for reproducing the landscape, the portable terminal and the current position of the user as coordinate points, and is further determined from the coordinate points. Arc-shaped distance information is also displayed at a predetermined distance in the direction in which the mobile terminal and thus the user is facing, not in the specified direction. Therefore, by visually recognizing the distance information displayed on the display, it is possible to correctly grasp the distance to the object that the user wants to know on the spot.

According to the invention of claim 2, the distance information is wiped and displayed so that the boundary line connecting the coordinate point and one point of the arc line moves within the range of both ends of the arc line. It is possible to obtain a real feeling that the position of the user is at the coordinate point.

According to the invention of claim 3, the user can obtain a real feeling that the current position of the user is at the coordinate point by the boundary line that moves reciprocally within the range of both ends of the arc line.

According to the invention of claim 4, the boundary line moving in one direction within the range of both ends of the arc line allows the user to obtain a real feeling that the current position is at the coordinate point.

According to the invention of claim 5, every time the movement of the boundary line starts, it can be understood that new positioning data and azimuth data have been taken into the apparatus, and the operation state of the apparatus can be visually confirmed intuitively.

According to the invention of claim 6, it becomes possible to make the trajectory of the moving boundary line conspicuous in the distance information displayed on the display, and it is possible to provide distance information that is easy for the user to see.

According to the seventh aspect of the present invention, not only the distance information but also the direction in which the mobile terminal and the user are facing are displayed at the same time on the display, so that the user can correctly grasp the direction in which he is facing.

According to the invention of claim 8, every time a new arrow is displayed on the display, it can be understood that new positioning data and azimuth data have been taken into the device, and the operating state of the device can be visually and intuitively understood. I can confirm.

According to the ninth aspect of the present invention, what kind of object is present within a predetermined angle range and what distance is present within the predetermined angle range centering on the direction in which the mobile terminal and the user is facing is displayed on the display. Intuitive confirmation from distance information.

According to the invention of claim 10, it becomes possible for the user to correctly grasp the direction in which the user is heading as if the current position of the user is at the base of the arrow.

According to the invention of claim 11, the problem that the map information displayed on the display device is partially unrecognizable by the distance information is solved, and what kind of object exists in the area overlapping the distance information. Can be understood correctly.

It is a block diagram which shows the whole structure of the portable terminal incorporating the display control apparatus in this invention. It is a top view which shows the position display form in a display same as the above. FIG. 2 is a schematic diagram illustrating an actual course and a course displayed on a display unit in a plane in order to explain the operation of the mobile terminal shown in FIG. 2 is a flowchart for explaining the operation of the mobile terminal shown in FIG.

Hereinafter, an embodiment of a display control apparatus according to the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an overall configuration diagram of a mobile terminal 10 incorporating a display control device 1 proposed in the present embodiment. First, the hardware configuration of the mobile terminal 10 held by a golf player as a user will be described. The mobile terminal 10 includes a control unit 12, a GPS (Global Positioning System) receiver 14, and a direction sensor. 16, an operation unit 18, a storage unit 20, a display 22, and a transmission / reception unit 24. Here, the portable terminal 10 is a thin plate-like tablet terminal that operates by directly touching the surface of the display 22, but may be realized using a mobile phone, a wristwatch, or a portable information processing terminal.

The control means 12 includes a CPU (central processing unit) and has a software function for performing various arithmetic processes. Details of the function will be described later.

The GPS receiving unit 14 is provided as a position detection device that acquires the current position of the mobile terminal 10, and wirelessly receives radio waves from one or more artificial satellites 30, thereby holding the mobile terminal 10 and thus the mobile phone 10. The player's three-dimensional position (longitude, latitude and altitude) is measured, and the positioning data is sent to the control means 12. Note that a position detection device other than the GPS receiver 14 may be used as long as the current position of the mobile terminal 10 can be detected.

The direction sensor 16 is configured by combining the acceleration sensor 16A and the geomagnetic sensor 16B, and is provided as a direction detection device that detects the azimuth angle of the mobile terminal 10 and sends the azimuth data to the control means 12. As for the direction sensor 16, any direction detection device other than the acceleration sensor 16 </ b> A and the geomagnetic sensor 16 </ b> B may be used as long as the direction in which the mobile terminal 10 is facing can be acquired.

The operation unit 18 sends an electrical operation signal to the control means 12 in response to an operation by the player. Specific examples of the configuration of the operation unit 18 include a keyboard, a pointing device, a button, and the like in addition to a transparent touch panel provided on the surface of the display 22 to be described later, but are not limited thereto.

The storage means 20 is configured using various storage devices such as a magnetic hard disk device and a semiconductor storage device, and stores a map data storage unit 34 for storing map data for displaying map information on the display 22, and the map data And a reference position data storage unit 36 that stores actual positioning data at each determined point as reference position data. Including these map data and reference position data, the storage means 20 can read and write various data and programs based on commands from the control means 12.

In the present embodiment, the map data stored in the map data storage unit 34 reproduces the scenery of the golf course to be displayed on the display 22, and here, a plurality of map data corresponding to each hole is prepared. ing. Corresponding to this map data, for example, using a dedicated GPS receiver (not shown), a three-dimensional position such as a tee or green of each hole is measured in advance, and the positioning data is used as reference position data. It is stored in the storage unit 36. Even when the display target is other than a golf course, a plurality of reference position data is stored in the reference position data storage unit 36 corresponding to the map data.

The display 22 receives various display control signals from the control means 12 and performs various displays. The display 22 includes, for example, a liquid crystal module or a liquid crystal panel that is provided exposed on the front of the main body of the mobile terminal 10. As is well known, these liquid crystal modules and liquid crystal panels perform display using a dot matrix in which a large number of sub-pixels are arranged in a lattice pattern.

The transmission / reception unit 24 enables bidirectional communication between the mobile terminal 10 and an external device (not shown) via a wireless or wired communication means 38. Thus, for example, map data necessary for the control means 12 from the transmission / reception unit 24 of the portable terminal 10 via the communication means 38 such as the Internet from a center server as an external device having a large amount of map data and reference position data. It is possible to selectively fetch only the reference position data and store them in the map data storage unit 34 and the reference position data storage unit 36, respectively.

Next, the software configuration of the program that operates the control means 12 will be described. The control means 12 incorporates the function of a display control unit 50 that is a display control device that controls the display of the display 22. The display control unit 50 includes an image scale determination unit 52, a player coordinate position determination unit 54, and the like. And an arc display determining unit 56. In other words, the display control unit 50 here executes the respective steps by the image scale determining unit 52, the player coordinate position determining unit 54, and the arc display determining unit 56 in order on the control unit 12 having a function as a computer of the mobile terminal 10. Is recorded in the storage means 20 as a storage medium so as to be readable.

The image scale determination unit 52 determines the distance between two reference position data (actual distance) acquired from the reference position data storage unit 36 and the distance between two coordinate data displayed on the display 22 (image). The scale which is a ratio to the (distance) is determined. Further, the image scale determining unit 52 reads map data of a specific hole from the map data storage unit 34 in advance by input from the operation unit 18 and converts it into map information that can be displayed on the display 22, When the actual distance is calculated, the reference position data of two points existing in the map data of this specific hole is selectively acquired from the reference data position storage unit 36 while being sent to the display 22. ing.

The player coordinate position determination unit 54 includes positioning data indicating the player's current position acquired from the GPS reception unit 14, reference position data acquired by the image scale determination unit 52 from the reference position data storage unit 36, and an image reduction scale determination unit. Based on the scale obtained at 52, the coordinate position of the player on the map information displayed on the display 22 is determined. Since the GPS receiving unit 14 sends positioning data to the display control unit 50 every predetermined time (for example, 1 second), the player coordinate position determination unit 54 determines the coordinate position of the player on the map information each time.

The arc display determination unit 56 calculates the azimuth angle of the map information displayed on the display 22 from the two reference position data acquired by the image scale determination unit 52, and determines the azimuth angle of the map information and the direction sensor. The player's azimuth on the map information is calculated from the azimuth data indicating the azimuth of the mobile terminal 10 acquired from 16 and the player's coordinate position on the map information determined by the player coordinate position determination unit 54 is used as the center. Arc distance information is displayed on the display 22 at a distance (number of yards) determined in the direction in which the head is facing. A plurality of arcs can be formed according to the difference in the designated distance, and the arcs are displayed in a semi-transparent state superimposed on the map information indicating the scenery of each hole.

FIG. 2 shows an example of one display form on the display 22. In the figure, the display device 22 includes an operation unit 18 as a transparent touch panel on the surface thereof, and by touching a predetermined position on the surface of the display device 22, an electric operation corresponding to the position is performed. A signal is taken into the control means 12 from the operation unit 18.

The display 22 here includes a hall map display unit 60, a score display unit 62, a facility introduction display unit 64, a local rule display unit 66, and a usage display unit 68 arranged side by side. Are provided with a cart operation status display section 70, a map information and distance information display section 72, a height difference display section 74, a hall information display section 76, a green information display section 78, a height difference availability display section 80, and the like. ing. All displays on the display device 22 are performed by display control signals sent from the display control unit 50 to the display device 22.

The hole map display unit 60 is configured to urge the operation unit 18 to transmit an operation signal for displaying map information of a specific hole on the display control unit 50 by contacting the surface. In addition, the score display unit 62, the facility introduction display unit 64, the local rule display unit 66, and the usage display unit 68 come into contact with the surfaces of the score display unit 62, the facility introduction display unit 68, and the usage control unit 68. It prompts the sending of operation signals for displaying rules and usage.

The cart operation status display unit 70 displays the progress status of a cart (not shown) on which the player is boarded, and information on the progress status of the cart is a center that grasps the operation status of all carts operating in the golf course. The data is taken into the display control unit 50 from the server via the communication means 38.

The map information and distance information display unit 72 displays the map information representing the scenery of each hole and the distance information of the arc representing the distance from the player as a starting point, and displays the map information here. Are displayed as tee 72A, fairway 72B, rough 72C, green 72D, bunker 72E, pond 72F, forest 72G, cart road 72H, and the like as distance information displayed by the arc display determination unit 56. The coordinate point 72J indicating the current position of the player, the coordinate point 72J as a starting point, and the direction display unit 72K indicating the direction the player is facing with an arrow, and the direction from the coordinate point 72J to the direction display unit 72K are drawn at regular intervals. Within the range of the left and right ends of the plurality of arc lines 72L and the arc line 72L, the coordinate point 72J is directed to the arc line 72L. In order to specify the boundary line 72M drawn in a straight line and moving to the left and right at regular intervals, and the range of the left and right ends of the arc line 72L in order to specify the field of view of the player, the rear of the moving boundary line 72M In this case, a dark color is drawn, and a lighter color is drawn as the boundary line 72M moves away. Further, a semi-transparent region portion 72N drawn in a translucent manner so that map information can be seen is displayed.

Particularly, the boundary line 72M and the translucent area portion 72N have a function as a wipe display portion that displays the distance information while wiping left and right around the coordinate point 72J. As a result, the player can obtain a real feeling that the current position of the player is at the coordinate point 72J. In addition, the wipe display section and the plurality of arc lines 72L can simultaneously know not only the position and distance to the fairway 72B and the green 72D, but also the distance and position to hazards such as the bunker 72E, the pond 72F, and the forest 72G. be able to. If necessary, the visual effect may be enhanced by displaying the distance in numbers corresponding to each arc line 72L or by displaying a scale on the arc line 72L.

In addition, on the map information and distance information display unit 72, the current position of the cart taken into the display control unit 50 from the center server is displayed as the cart position display unit 72P.

The height difference display part 74 displays the height difference of the map information of the hall displayed on the map information and the distance information display part 72 side by side in the map information, and the data regarding the height difference of the hole is the map described above. It is included in the data. The display by the height difference display unit 74 is repeatedly turned on or off by a display control signal from the display control unit 50 every time the surface of the height difference display unit 80 is touched.

The hall information display unit 76 indicates the characteristics of the holes displayed on the map information and distance information display unit 72 in characters, and is stored in the storage means 20 in association with the map data of each hole. As the map information of the specific hall is displayed on the information and distance information display unit 72, the display control unit 50 reads out from the storage means 20. Further, the green information display unit 78 is an enlargement of the map information green 72D displayed on the map information and distance information display unit 72, so that the target cup position and the like can be easily confirmed.

Next, the operation of the above configuration will be described based on the flowchart of FIG. 4 with reference to the explanatory diagram of FIG.

In step S1 of FIG. 4, the latitude and longitude of an actual hall tee RT or green RG measured in advance by a dedicated GPS receiver are stored in the portable terminal 10 owned by the player as reference position data. It is stored in the storage unit 36. In addition, map data that can reproduce the actual landscape including the reference position data is stored in the map data storage unit 34.

In the next step S2, the display control unit 50 determines a hole to be displayed on the map information and distance information display unit 72 of the display 22. This is because the current position of the mobile terminal 10 is specified by the positioning data acquired from the GPS receiver 14 and determined as the hole closest to the current position of the mobile terminal 10 by comparing the current position with the reference position data. Alternatively, the hole may be determined by an operation signal from the operation unit 18.

In the display control unit 50, when the hole to be displayed on the display 22 is determined, the image scale determination unit 52 causes the map data and the reference corresponding to the hole to be selected from the map data storage unit 34 and the reference position data storage unit 36. The position data is read out and the scale of the map information displayed on the map information and distance information display unit 72 of the display 22 is calculated (step S3). As shown in FIG. 3, the actual distance DG between the tee RT and green RG reference position data read from the reference position data storage unit 36 is calculated and then read from the map data storage unit 34. When trying to display the map data of a specific hall to be displayed so that it falls within the area of the map information and distance information display section 72 of the display 22, it corresponds to actual tee RT and green RG, for example. The coordinates of the tee VT and the green VG on the image in the map information and distance information display unit 72 are obtained. Further, the image distance VDG between the tee VT and the green VG is calculated therefrom, and the ratio of the image distance VDG to the actual distance DG is calculated as the scale S. When the image scale determining unit 52 determines the scale S, the process proceeds to the next step S4.

In step S4, the player coordinate position determination unit 54 determines the player's coordinate position on the image displayed on the display 22. As shown in FIG. 3, the current position (latitude, longitude) RGP of the player is acquired from the positioning data from the GPS receiver 14, and based on the reference position data used in step S3, for example, the green RG and the player An actual distance RD from the current position RGP is calculated, and a distance VD from the green VG on the image is calculated corresponding to the actual distance RD. Further, an angle A formed by a line connecting the position of the green RG and the current position RGP of the player is calculated with respect to an actual line connecting the positions of the tee RT and the green RG, for example, and the angle A and the green on the image are calculated. Based on the distance VD from VG, the coordinates VGP of the player on the image in the map information and distance information display unit 72 are calculated. When the player coordinate position determination unit 54 determines the player coordinates VGP on the image, the process proceeds to the next step S5.

In step S5, the arc display determination unit 56 causes the display 22 to display distance information directed to the player's azimuth along with the map information corresponding to the map data. As shown in FIG. 3, the angle (azimuth) of the map information displayed on the map information and distance information display unit 72 from the actual positions of the tee RT and green RG read from the reference position data storage unit 36, as shown in FIG. Angle) HA is calculated, and from the map information angle HA and the azimuth data indicating the azimuth angle of the mobile terminal 10 obtained from the direction sensor 16, the mobile terminal 10 on the map information and thus the player's azimuth TA is calculated. . The direction of the direction display unit 72K displayed on the map information and distance information display unit 72 by the arc display determination unit 56 coincides with this azimuth angle TA. In addition, since the reference position data to be used is shared, the processing as the display control unit 50 can be performed at high speed. Then, the map information and distance at a position corresponding to a specified distance (number of yards) from the player coordinate VGP on the map information determined by the player coordinate position determination unit 54 toward the player's azimuth TA. The arc line 72L as the distance information is displayed on the information display unit 72.

In this way, the display control unit 50 according to the present embodiment acquires the azimuth angle of the mobile terminal 10 based on the azimuth data from the direction sensor 16 and the current position of the mobile terminal 10 based on the positioning data from the GPS receiver 14 ( Latitude, longitude), and based on these azimuth and current position, the map data stored in the map data storage unit 34, and the reference position data stored in the reference position data storage unit 36, the display 22 On the course image as map information displayed on the map information and distance information display unit 72, an arc indicating the distance in the direction in which the mobile terminal 10 faces is synthesized, and a fan-shaped radar composed of the arc line 72L and the boundary line 72M. Draw the display. Therefore, the player (golfer) possessing the mobile terminal 10 can acquire information necessary for developing the strategy of the hall from the map information and distance information display unit 72 of the display 22.

As described above, in this embodiment, map information for reproducing a landscape is displayed on the display 22 of the mobile terminal 10, and the current position of the mobile terminal 10 is used as positioning data from the GPS receiving unit 14 serving as a position detection device. In the display control unit 50 serving as a display control device that displays and displays the coordinate point 72J corresponding to the current position of the mobile terminal 10 on the display 22 by superimposing it with the map information, the azimuth angle that the mobile terminal 10 faces is determined. It is acquired from the direction sensor 16 which is a direction detection device as azimuth data, and the display 22 has an arc shape at a distance determined in the direction in which the mobile terminal 10 faces with the coordinate point 72J displayed in a spot shape as the center. An arc display determination unit 56 for displaying an arc line 72L as distance information is provided.

In this case, on the display 22 of the mobile terminal 10 owned by the user, the mobile terminal 10 and the current position of the user are displayed as the coordinate point 72J together with the map information reproducing the landscape, and further determined from the coordinate point 72J. Arc-shaped distance information is also displayed at a predetermined distance not in the direction but in the direction in which the mobile terminal 10 and thus the user is facing. Therefore, by visually recognizing the distance information displayed on the display 22, the distance to the object that the user wants to know on the spot can be correctly grasped.

Further, the arc display determination unit 56 here includes a coordinate point 72J, an arc line 72L at a certain distance from the coordinate point 72J, and a boundary line 72M connecting the coordinate point 72J and one point of the arc line 72L. The distance information displayed on the display 22 as the distance information is not always the same, but the arc 72 so that the boundary 72M repeatedly moves within the range of both ends of the arc 72L. The radius portion (boundary line 72M) is swung left and right and has a function of displaying a wipe.

If the distance information is wiped so that the boundary line 72M connecting the coordinate point 72J and one point of the arc line 72L moves within the range of both ends of the arc line 72L, the player will have the current position of the coordinates. A realistic feeling as at point 72J can be obtained.

In this case, the arc display determination unit 56 may wipe the distance information so that the boundary line 72M reciprocates left and right repeatedly. The boundary line 72M that reciprocates left and right within the range of both ends of the arc line 72L allows the player to obtain a real feeling that the current position is at the coordinate point 72J.

Alternatively, the arc display determination unit 56 may wipe-display the distance information so that the boundary line 72M repeatedly moves in one direction. The boundary line 72M that moves in one direction from right to left or from left to right within the range of both ends of the arc line 72L allows the player to get a real feeling that the current position is at the coordinate point. it can.

The arc display determination unit 56 of the present embodiment starts the movement of the boundary line 72M in synchronization with the acquisition of one or both of the positioning data from the GPS receiving unit 14 and the azimuth data from the direction sensor 16. ing. In this way, whenever the movement of the boundary line 72M starts, it can be understood that new positioning data and azimuth data have been taken into the display control device, and the operation state of the display control device can be visually and intuitively confirmed.

Further, the arc display determination unit 56 of the present embodiment has a function of displaying the boundary line 72M darker than other parts in the distance information and gradually displaying lighter as the boundary line 72M leaves.

In this case, the trajectory of the moving boundary line 72M can be made conspicuous in the distance information displayed on the display 22, and distance information that is easy to see for the player can be provided.

Further, the arc display determination unit 56 here has a function of displaying the direction in which the mobile terminal 10 is facing on the display unit 22 by the direction instruction unit 72K as an arrow together with the distance information. In this case, the display 22 displays not only the distance information but also the direction in which the mobile terminal 10 and the user are facing at the same time, so that the user can correctly grasp the direction in which he is facing.

In addition, the arc display determination unit 56 of the present embodiment is a direction instruction unit that becomes an arrow in synchronization with the acquisition of one or both of the positioning data from the GPS receiving unit 14 and the azimuth data from the direction sensor 16. It has a function to display 72K. In this case, every time the direction indicator 72K that becomes a new arrow is displayed on the display 22, it can be understood that new positioning data and azimuth data have been taken into the display control device, and the operation state of the display control device can be determined. It can be confirmed intuitively visually.

Further, the arc display determination unit 56 of this embodiment has a function of displaying distance information in a range of angles equal to the left and right from the direction instruction unit 72K as an arrow. In this case, the distance information displayed on the display 22 indicates what kind of object is located within a predetermined angle range with respect to the direction in which the portable terminal 10 and the player are facing. Intuitive confirmation.

Further, the arc display determination unit 56 of the present embodiment has a function of displaying the base end of the direction instruction unit 72K as an arrow so as to coincide with the coordinate point 72J. In this case, the user can correctly grasp the direction in which he / she is heading with the sense that his / her current position is at the base end of the direction indicating unit 72K as an arrow.

In addition, the arc display determination unit 56 of this embodiment displays the inside of the overlapping region in a semi-transparent manner (semi-transparent region portion 72N) so that the map information reproducing the landscape can be seen in the region overlapping the distance information. It has a function. In this case, the problem that the map information displayed on the display device 22 is partially unrecognizable by the distance information is eliminated, and it is possible to correctly understand what kind of object exists in the area overlapping the distance information. Can do.

Further, the display control unit 50 reads out the map data of a specific hall from the map data storage unit 34, converts it into map information that can be displayed on the display 22, and sends it to the display 22, and the reference position. The actual distance between the two reference position data acquired from the data storage unit 36 and existing in the map data of this specific hall, and the image distance between the coordinate data of the same two points displayed on the display 22 An image scale determining unit 52 that determines a scale that is a ratio, the positioning data acquired from the GPS receiving unit 14, reference position data of two points acquired by the image scale determining unit 52 from the reference position data storage unit 36, and an image Based on the scale obtained by the scale determining unit 52, the player coordinate position determining unit 54 as a coordinate position determining unit that determines the position of the coordinate point 72J displayed on the display 22 is further changed. The arc display determination unit 56 calculates the azimuth of the map information displayed on the display 22 from the two reference position data acquired by the image scale determination unit 52, and calculates the azimuth and direction of the map information. The azimuth angle of the player as the user on the map information is calculated from the azimuth data indicating the azimuth angle of the mobile terminal 10 acquired from the sensor 16, and the coordinate point 72J on the map information determined by the player coordinate position determination unit 54 is the center. As described above, arc-shaped distance information is displayed on the display 22 at a distance (number of yards) determined in the direction in which the player is facing.

By doing in this way, while being able to display the map information of the indicator 22 with a desired scale, it is possible to display the arc-shaped distance information in the direction in which the mobile terminal 10 and the user are facing, and the image scale determining unit 52, the player coordinate position determination unit 54 and the arc display determination unit 56 share the reference position data to be used, so that the processing as the display control unit 50 can be performed at high speed.

The present invention has been described based on the embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention. For example, in the above embodiment, the function as the display control unit 50 is not incorporated in the control unit 12 built in the mobile terminal 10, but is an external center that is electrically connected by the communication unit 38 and the transmission / reception unit 24 of the mobile terminal 10. It may be incorporated in the server. In this case, the configuration of the control means 12 in each mobile terminal 10 can be kept to the minimum necessary. Similarly, the map data storage unit 34 and the reference position storage unit 36 may be incorporated in the center server instead of the portable terminal 10.

In addition, although the display control device used in the golf course has been described in detail in the present embodiment, the display control device of the present invention can be used for applications other than the golf course. Further, the processing procedure up to the display shown in FIG. 4 is merely an example, and may be used as long as a similar display function can be realized by another processing procedure.

10 mobile terminal 14 GPS receiver (position detection device)
16 Direction sensor (Direction detection device)
22 display unit 50 display control unit 56 arc display determination unit 72J coordinate point 72K direction display unit (arrow)
72L Arc line (distance information)
72M border

Claims (11)

1. While displaying the map information that reproduces the landscape on the display of the portable terminal, the current position of the portable terminal is acquired from the position detection device as positioning data, and superimposed on the map information to the current position of the portable terminal In the display control device for displaying the corresponding coordinate point on the display,
   An azimuth angle facing the mobile terminal is acquired from a direction detection device as azimuth data, and an arc-shaped distance is provided on the display unit at a distance determined in the direction the mobile terminal faces with the coordinate point as a center. A display control apparatus comprising an arc display determination unit for displaying information.
2. The arc display determination unit displays, as the distance information, the coordinate point, an arc line at a certain distance around the coordinate point, and a boundary line connecting the coordinate point and one point of the arc line. The display control apparatus according to claim 1, wherein the distance information is wiped and displayed so that the boundary line moves within a range of both ends of the arc line.
3. 3. The display control apparatus according to claim 2, wherein the arc display determination unit wipes the distance information so that the boundary line moves back and forth.
4. 3. The display control apparatus according to claim 2, wherein the arc display determination unit is configured to display the distance information in a wipe manner so that the boundary line moves in one direction.
5. 5. The arc display determining unit starts movement of the boundary line in synchronization with the acquisition of the positioning data and the azimuth data. The display control apparatus described.
6. 6. The display control apparatus according to claim 2, wherein the arc display determination unit displays the boundary line darkly and gradually displays the boundary line as the boundary line moves away. .
7. 7. The arc display determination unit, as well as the distance information, displays the direction in which the mobile terminal is facing with an arrow on the display. Display control device.
8. The display control device according to claim 7, wherein the arc display determination unit displays the arrow in synchronization with the acquisition of the positioning data and the azimuth data.
9. The display control device according to claim 7 or 8, wherein the arc display determination unit is configured to display the distance information in a range of angles equal to the left and right from the arrow.
10. The display control device according to any one of claims 7 to 9, wherein the arc display determination unit displays the base end of the arrow so as to coincide with the coordinate point.
11. 11. The arc display determination unit is configured to display the area semi-transparently so that the map information can be seen in an area overlapping the distance information. The display control apparatus according to 1.

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