JP6372237B2 - Display control program, display control method, and computer - Google Patents

Description

  The present invention relates to a display control program, a display control method, and a computer.

  When delivering a product to a destination in a home delivery service, etc., a map is displayed on the screen of the user's mobile device or PC that uses the home delivery service, and the delivery status is indicated to the user by displaying the position of the delivery vehicle on the map. A technique is known (see, for example, Patent Document 1).

JP-A-5-113750

  However, when delivering a product to a plurality of delivery destinations in one delivery, from the display position of the delivery vehicle moving on the map, the residence location of the user of the previous delivery destination and other user information are changed to the subsequent delivery destination. May be known to other users.

  On the other hand, if the position of the delivery vehicle moving on the map is displayed in a blurred manner, it becomes difficult for the user to visually grasp the delivery status such as where the delivery vehicle is coming, and the user is notified of the delivery status. The purpose is not achieved.

  Therefore, in one aspect, an object of the present invention is to provide position information of a moving object in which a waypoint to the destination is obscured.

In one plan, the current position of the moving body moving toward the destination is acquired, and the object indicating the position of the moving body is acquired based on the acquired distance between the current position of the moving body and the destination. A process of determining a display size, and causing a display screen to display a display screen in which an object of the determined display size is arranged on a map so that at least an outer edge of the object includes the current position of the moving body inside The process of determining the display size, which is executed by a computer , determines the display size so that the object is displayed smaller as the distance between the acquired current position of the moving object and the destination decreases. A control program is provided.

  According to one aspect, it is possible to provide position information of a moving object in which the waypoint to the destination is obscured.

The figure which shows the example of whole structure of the delivery status display system concerning one Embodiment. The figure which shows the comparative example of a delivery status display result. The figure which shows the function structural example of the server concerning one Embodiment. The figure which shows an example of the motorcycle position information table concerning one Embodiment. The figure which shows an example of the shop information table concerning one Embodiment. The figure which shows an example of the user member information table concerning one Embodiment. The figure which shows an example of the order information table concerning one Embodiment. The flowchart which showed the delivery status display process concerning one Embodiment. The figure which shows an example of the delivery status display result concerning one Embodiment. The figure for demonstrating the delivery status display concerning a modification. The figure which shows the hardware structural example of the server concerning one Embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In addition, in this specification and drawing, about the component which has the substantially same function structure, the duplicate description is abbreviate | omitted by attaching | subjecting the same code | symbol.

[Overall configuration of delivery status display system]
First, the configuration of a delivery status display system 10 according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 shows an example of the overall configuration of a delivery status display system 10 according to the present embodiment. A delivery status display system 10 according to the present embodiment includes a server 1 and a plurality of user terminals 2. The server 1 and the user terminal 2 are connected via a network 3 such as the Internet. The delivery status display system 10 according to the present embodiment may be a system included in an order system provided by a store that provides home delivery service, or may be a separate system that can operate in conjunction with the order system. .

  The server 1 measures the position (latitude information and longitude information) of the delivery motorcycle 5 using a GPS (Global Positioning System) 4. The home delivery motorcycle 5 of the present embodiment is an example of a moving body that moves toward a destination, and other examples of the moving body include an electric automobile, an automobile, an electric bicycle, a bicycle, and other vehicles. The server 1 may be any electronic device as long as it is a computer having a communication function.

  The user terminal 2 includes, for example, a control unit that operates according to a program installed in the user terminal 2, a storage unit that stores various data, a communication unit that performs data communication, and the like. The communication unit of the user terminal 2 has, for example, a mobile phone communication function for performing data communication using a mobile phone network, and a wireless LAN communication function for performing data communication using a wireless LAN (Local Area Network). . The user terminal 2 is connected to the network 3 by selectively using a mobile phone communication function or a wireless LAN communication function according to the communication environment, and performs data communication with the server 1.

  The user terminal 2 may have a delivery status display application for notifying the user of the delivery status when delivering a product to a destination in a home delivery service or the like. The delivery status display application is one of programs installed in the user terminal 2 and operates under the control of the control unit. When the delivery status display application is activated, a map is displayed on the display unit 2a of the user terminal 2, and the movement status of the home delivery motorcycle 5 when delivering the product to the destination is displayed.

  The user terminal 2 may be a smartphone having a communication function display function, a PC, a mobile phone, a portable information terminal (PDA), a tablet device, a portable music device, a game device, or the like. The user terminal 2 may be an office device, a home appliance, or the like that has a communication function display function.

  As shown in FIG. 2, when the point display 98 indicating the position of the delivery bike on the map is accurately displayed from the store A to the destination B via the transit point C, the goods at the transit point C are displayed. There is a possibility that the user who receives the product may know the residence position and other user information to the user who receives the product at the destination B. In addition, since the user who receives the product at the destination B knows the residence position and the like of other users who receive the product at the waypoint C, there is anxiety that his / her own residence position and the like will be known to users other than himself / herself. Occurs.

  On the other hand, if the position of the delivery bike moving on the map is blurred and displayed, it will be difficult for the user to visually grasp the delivery situation such as where the delivery bike is coming, and the delivery situation will be The purpose of the delivery status display system 10 to inform the user is not achieved.

  Therefore, the delivery status display system 10 according to the present embodiment can display the delivery status to the residence location of the person without specifying user information such as the residence location of other users. Below, the structure of the server 1 which has the function of the delivery status display concerning this embodiment, and the delivery status display process concerning this embodiment are demonstrated in order.

[Server function configuration]
Next, the functional configuration of the server 1 according to an embodiment will be described with reference to FIG. The server 1 includes a positioning unit 11, an acquisition unit 12, a storage unit 13, a calculation unit 14, a display control unit 15, and a communication unit 16. The storage unit 13 stores a motorcycle position information table 110, a store information table 120, a user member information table 130, and an order information table 140.

  The positioning unit 11 measures the current position of the home delivery motorcycle 5 using a satellite signal using the GPS 4. The positioning unit 11 repeatedly measures the current position of the home delivery motorcycle 5 every predetermined time.

  The acquisition unit 12 acquires a positioning result by the positioning unit 11. The acquisition unit 12 acquires the current position (latitude information, longitude information) of the home delivery motorcycle 5 every predetermined time.

  The storage unit 13 stores the current position of the home delivery bike 5 acquired by the acquisition unit 12 in the bike position information table 110. FIG. 4 shows an example of the bike position information table 110. In the motorcycle position information table 110, a motorcycle ID 111, a store ID 112, a motorcycle current position latitude information 113, and a motorcycle current position longitude information 114 are stored.

  The calculation unit 14 calculates the display size of the object 18 indicating the delivery bike 5 on the map displayed on the display unit 2a based on the distance between the acquired current position of the delivery bike 5 and the destination as the delivery destination.

  The communication unit 16 performs data communication with the user terminal 2. The display control unit 15 displays the object 18 at the display size calculated by the calculation unit 14 at a position corresponding to the current position of the delivery bike 5 on the map displayed on the user terminal 2.

  In that case, the display control part 15 may produce | generate the image of the map in which the object 18 was displayed by the said display size, and may display the image on the display part 2a of the user terminal 2 using a browser. The display control unit 15 transmits the display size information and position information of the object 18 to the user terminal 2 via the communication unit 16, and the user terminal 2 displays the object 18 at the display size based on the display size information and position information. An image of the mapped map may be generated and displayed on the display unit 2a.

  The store information table 120, the user member information table 130, and the order information table 140 stored in the storage unit 13 will be described with reference to FIGS. The store information table 120 shown in FIG. 5 stores a store ID 121, a store name 122, store location latitude information 123, and store location longitude information 124. For example, based on the store information table 120, the position of the store A on the map shown in FIG.

  In the user member information table 130 shown in FIG. 6, member information that can use the delivery service according to the present embodiment is stored. Specifically, the member ID information 130, the name 132, and the password 133 shown in FIG. The delivery status display process according to the present embodiment shown in FIG. 8 uses only the user (member) who has successfully authenticated using the user member information table 130 by allowing the user to input a password on the login screen. Can be done.

  The order information table 140 shown in FIG. 7 stores order information ordered by members. Specifically, the member ID 141, the store ID 142, the order ID 143, the delivery destination position latitude information 144, the delivery destination position longitude information 145, the order status information 146, and the motorcycle ID 147 are stored in the order information table 140.

[Delivery status display processing]
Next, the delivery status display process according to the present embodiment will be described with reference to FIG. FIG. 8 is a flowchart showing delivery status display processing according to an embodiment.

(Assumption / Process overview)
As a premise of starting this processing, the following processing (1) and processing (2) are performed, and the outline processing shown in processing (3) is performed in this processing.
(1) Order by user A user orders a delivery item or a product from an order system of a delivery service. In the present embodiment, a pizza delivery service will be described as an example. The capacity is to make pizza. Further, the store clerk stores a delivery (departure store) store ID 142, a user member ID 141, an order ID 143, a delivery address (delivery location latitude information 144 and delivery) in the order information table 140 stored in the storage unit 13 of the server 1. The destination position longitude information 145) and the motorcycle ID 147 of the delivery motorcycle to be used are stored.
(2) Acquisition of Current Location Bike current location latitude information 113 and motorcycle current location longitude information 114 for each motorcycle ID 147 stored in the motorcycle location information table 110 are delivered from the GPS 4 to the server 1 using the GPS function of the delivery motorcycle 5. The current position of the motorcycle 5 is notified. In addition, a capacity | capacitance may input order ID143 of the order information table 140 into the smart phone with GPS function (not shown), carry a smart phone, ride on the delivery motorcycle 5, and deliver pizza. In this case, the current position of the delivery bike 5 is notified from the GPS 4 to the server 1 using the GPS function mounted on the smartphone.
(3) Object Display on Map The distance S0 between the location of the store delivering pizza and the location of the delivery destination (destination) is set to 100. The server 1 calculates the distance SC between the current position of the home delivery motorcycle 5 and the position of the delivery destination, and obtains the ratio of these distances (= SC / S0). The server 1 calculates the display size of the object indicating the home delivery motorcycle 5 based on this ratio. In the present embodiment, the shape of the object is a circle. Therefore, in this embodiment, the display size of the object is determined by the diameter R of the circle. The current position of the home delivery motorcycle 5 exists inside the circle. Thus, by changing the display size of the circle object including the current position of the delivery bike 5, the degree of proximity from the current position of the delivery bike 5 to the delivery destination (destination) is displayed in the display size of the object 18.

  A circle is an example of the object 18 indicating a moving body. The object 18 may be a figure or a symbol that can display an area including the current position of the moving object. For example, the object 18 may be a figure such as a triangle, a quadrangle, a polygon, an ellipse, or a star, or may be a symbol such as an arrow.

  When the user activates the application for displaying the delivery status of the user terminal 2, the delivery status display process described below is executed, and the movement status of the home delivery motorcycle 5 is displayed on the screen by the object 18. Thereby, the user can watch the whereabouts of the delivery bike 5 until the pizza reaches the house.

  In the delivery status display process described below, the display size of the object 18 indicating the home delivery motorcycle 5 is calculated, and the object 18 is displayed in the calculated display size (see FIG. 9). The object 18 is not displayed transparently. As a result, even when a product is delivered to a plurality of delivery destinations in one delivery, the address and other user information of one user to whom the product is delivered first from the display position of the object 18 on the map. However, it is possible to avoid being known to other users to whom the product is delivered later.

(Delivery status display process)
When the delivery status display process according to the present embodiment in FIG. 8 is started, a user (user) first inputs a member ID and a password. The acquisition unit 12 acquires the member ID and password, and collates with the member ID 131 and password 133 held in the user member information table 130. If the user is authenticated as a member, the user is permitted to log in (step S10).

  Next, the acquiring unit 12 determines, based on the order information table 140, whether there is order information in which the order status information 146 has a “delivering” flag among the order information ordered by the logged-in user (step S12). ). If the acquisition unit 12 determines that the order status information 146 has no order information having a “delivering” flag, the processing ends.

  When the acquisition unit 12 determines that there is order information having the “delivery” flag in the order status information 146, the calculation unit 14 defines map display auxiliary information (step S14). Thereby, the maximum display circle radius R (the maximum radius R of the circle of the object) and the maximum display position shift amounts ZX and ZY are defined. The maximum display position shift amount ZX indicates the shift amount of the X coordinate on the screen, and the maximum display position shift amount ZY indicates the shift amount of the Y coordinate on the screen. However, the shift amounts ZX and ZY are both in a range that does not deviate from the actual current position of the delivery bike 5. That is, the actual current position of the home delivery motorcycle 5 is set to be within the circle of the object displayed on the map.

  Next, the calculation unit 14 calculates the distance D between the store and the order delivery destination (destination) (step S16). The calculation unit 14 calculates the latitude distance between the store and the order delivery destination from the store location latitude information 123 and the delivery destination location latitude information 144 based on the store information table 120 and the order information table 140. Further, the calculation unit 14 calculates the longitude distance between the store and the order delivery destination from the store location longitude information 124 and the delivery destination location longitude information 145. Thereby, the distance D between the store and the order delivery destination (destination) is calculated.

  Next, the acquisition unit 12 acquires the current position of the home delivery motorcycle 5 (step S18). Next, the calculation unit 14 calculates a distance Dnow between the current position of the home delivery motorcycle 5 and the order delivery destination (step S20). Based on the motorcycle position information table 110 and the order information table 140, the calculation unit 14 calculates the distance between the current position of the motorcycle and the order delivery destination from the motorcycle current position latitude information 113 and the delivery destination position latitude information 144. Further, the calculation unit 14 calculates the distance between the current position of the home delivery motorcycle 5 and the order delivery destination from the motorcycle current position longitude information 114 and the delivery destination position longitude information 145. Thereby, the distance Dnow between the current position of the delivery bike 5 and the order delivery destination (destination) is calculated.

  Next, the calculation unit 14 calculates a delivery progress value from the distance D and the distance Dnow (step S22). The progress value is calculated by Dnow / D. If Dnow> D, the progress value is the initial value “0”.

  Next, the calculation unit 14 calculates the circle display radius Rnow of the object 18 (step S24). The display radius Rnow of the circle of the object 18 is calculated by the maximum display circle radius R × the progress value. Next, the calculation unit 14 calculates the shift amount of the object 18 (step S26). The X coordinate shift position X of the object 18 is calculated by the maximum display position shift amount ZX × the progress value. The shift position Y of the Y coordinate of the object 18 is calculated by the maximum display position shift amount ZY × the progress value.

  Next, the calculation unit 14 calculates the center position of the circle of the object 18 (step S28). The display position X of the X coordinate of the center position of the circle of the object 18 is calculated from the current position of the delivery bike 5 + the shift position X. The display position Y of the Y coordinate of the center position of the circle of the object 18 is calculated from the current position of the delivery bike 5 + the shift position Y.

  The display control unit 15 displays the circular object 18 having the radius Rnow on the map with the display position X and the display position Y as the center (step S30). Next, the acquisition unit 12 counts the movement interval and waits for 1 minute, for example (step S32).

  Next, the acquiring unit 12 determines whether there is order information having a “delivering” flag in the order status information 146 of the order information of the logged-in user (Step S34). If the acquisition unit 12 determines that the order status information 146 of the logged-in user's order information does not have a “delivering” flag, the acquisition unit 12 determines that the delivery is complete, displays the end of the delivery (step S36), and performs this processing. Exit.

  On the other hand, if the acquisition unit 12 determines that the order status information 146 of the logged-in user's order information is “delivering”, the acquisition unit 12 returns to step S18 and executes steps S18 to S34 again. As a result, the radius Rnow of the circle of the object 18 and the shift positions X and Y of the X and Y coordinates of the object 18 are calculated again. The display control unit 15 newly displays a circular object 18 having a radius Rnow centered on the display position X and the display position Y obtained by adding the shift positions X and Y to the position of the delivery bike 5 on the map. . In this way, as shown in FIG. 9, a plurality of objects 18 are displayed from the store A to the destination B by the number corresponding to the degree of progress.

  As described above, according to the display control method according to the present embodiment, by displaying the object 18 having a size that does not specify the actual position of the home delivery motorcycle 5 on the map, to what extent the product is The user can be informed if it is being carried.

  On the other hand, for example, the user cannot always grasp how far the product has been carried by simply indicating the progress of delivery of the product with a progress bar or the like without map information. Moreover, the user cannot always grasp the movement status of the home delivery motorcycle and the arrival time of the product from the remaining distance only by displaying the remaining distance that the product is carried.

  In the delivery service of mailed goods and goods, it is regarded as one of the service quality that both the company providing the service and the user receiving the service deliver the mailed goods and goods quickly within a predetermined time. For this reason, it is thought that the ratio of the user's complaint regarding the arrival time is high. For example, if the product is not delivered within the scheduled provision time, it is assumed that companies that provide the home delivery service will increase the work of apologizing and providing coupons.

  On the other hand, if the user of the home delivery service can know the delivery status of the product by using the delivery status display system 10 according to the present embodiment, the timing of table preparation, event start, etc. according to the arrival time. Can be predicted. Thus, the delivery status display system 10 according to the present embodiment can be widely used for home delivery services.

  However, particularly when delivering a plurality of products to different users at one time, there is a concern that even the position information of other users may be displayed. On the other hand, in the display control method according to the present embodiment, when delivering a product to a plurality of users, the display size of the object 18 corresponding to the position of the home delivery motorcycle 5 is changed according to the movement state (progress value) of the motorcycle. To do.

  For example, as shown in FIG. 9, the object 18 displayed on the map is displayed so as to decrease as the distance Rnow between the current position of the delivery bike 5 and the destination decreases. The user wants to know some detailed delivery information when the position of the delivery motorcycle is close to the destination. On the other hand, the user does not necessarily need detailed delivery information while the position of the delivery bike is far from the destination. This is because it is assumed that it will still take time until the product arrives, and it is difficult to predict the arrival time even if detailed delivery information is obtained at that time.

  Therefore, the object 18 is displayed large while the home delivery motorcycle 5 is far from the destination B. Further, the map information of the area within the circle of the object 18 is not displayed. That is, the transparent display is not performed in the area within the circle of the object 18. Accordingly, as the display size of the object 18 is larger, the map information cannot be visually recognized in a wider area including the current position of the delivery bike 5. For this reason, while the home delivery motorcycle 5 is far from the destination B, a display in which more map information is missing in the vicinity of the actual position of the home delivery motorcycle is displayed.

  Accordingly, it is possible to prevent the user information such as the address of one user who uses the same home delivery service from being accurately identified by other users. In the example of FIG. 9, it is possible to avoid the user of the destination B knowing the actual position of the home delivery motorcycle 5 and the user information of the waypoint C, and the user of the destination B knows the delivery status of the home delivery motorcycle 5. be able to. Similarly, the user of the destination B can avoid making his address known to other users who use the same home delivery service. Thereby, each user can use the delivery status display system 10 according to the present embodiment with peace of mind.

  Further, the actual position of the home delivery bike 5 on the map is displayed by being randomly shifted from the center position of the object 18. That is, the display of the object 18 is controlled so that the position of the home delivery bike 5 indicated by the dotted line in the object 18 of FIG. 9 is appropriately shifted from the center position of the circle of the object 18. Thereby, it becomes more difficult to specify the actual position of the delivery bike 5 in the object 18. Note that the position of the delivery motorcycle 5 indicated by the dotted line in FIG. 9 is illustrated for convenience of explanation, and is not actually displayed.

  In the flowchart of FIG. 8, the radius of the display circle of the object 18 is changed, and the center of the circle is shifted from the current position. However, instead of the embodiment of the flowchart of FIG. The center of the circle may be shifted from the current position. Also in this aspect, it is possible to prevent the address of one user who uses the same home delivery service from being accurately identified by other users.

  In addition, according to the delivery status display system 10 according to the present embodiment, the current position of the home delivery bike 5 moving toward the destination C is repeatedly acquired every predetermined time, and the target is obtained for each acquired current position of the home delivery bike 5. Based on the distance to the ground C, the display size of the object 18 on the map is calculated. Then, each object 18 can be displayed at a display size corresponding to each current position at a position on the map corresponding to each current position of the delivery bike 5. This makes it easier for the user to visually recognize the locus of delivery status.

  Furthermore, the user does not want other users to know his / her location information after completing the delivery of the product. Therefore, when all of the order status information 146 of the order information ordered by the user himself / herself is determined to be “delivery completed”, the display of the map ends. Even if the order status information 146 is “delivering”, the display of the map may be interrupted if the residence time of the delivery bike 5 at the delivery position is longer than a predetermined time. In that case, the display of the map is resumed in response to the determination of the start of movement of the home delivery motorcycle 5.

  Further, from the viewpoint of preventing the address of one user from being accurately identified to other users, the current position of the delivery bike 5 is normally displayed on a map, and the position of the delivery bike 5 is determined as a transit point. The processing described in the flowchart of FIG. 8 may be executed when the vicinity is reached. Whether or not the position of the delivery bike 5 is in the vicinity of the waypoint may be determined, for example, when the residence time at the delivery position of the delivery bike 5 is longer than a predetermined time. In addition, for example, prior to the start of delivery of the delivery bike 5, the address of the delivery bike 5 and the location on the map are transmitted to the server 1 from the terminal device of the store, and the delivery is performed based on the sent delivery place information. It may be determined whether or not the position of the motorcycle 5 is near the waypoint.

  In the present embodiment, the calculation unit 14 calculates the distance D between the two points between the store and the destination and the distance Dnow between the two points between the current position of the home delivery motorcycle 5 and the destination. Based on the distance, the display size and shift amount of the object 18 were calculated. However, in the present embodiment, the present invention is not limited to this. For example, the route distance between the store and the destination and the route distance between the current position of the home delivery motorcycle 5 and the destination are calculated, and the object 18 is based on these distances. The display size and the shift amount may be calculated.

  Further, in the present embodiment, the calculation unit 14 calculates the shift amount in steps S26 to S30 in FIG. displayed. However, steps S26 to S28 may be omitted, or only step S26 may be omitted so that the current position of the delivery bike 5 and the center point of the circle of the object 18 are shifted by a predetermined amount. However, it is preferable that the current position of the delivery bike 5 is randomly shifted from the center point of the circle of the object 18 because information on the actual position of the delivery bike 5 can be displayed more easily on the map.

  In addition, when a product is delivered to a neighboring house (an apartment house), there is a case where the circle of the object 18 is stopped at the same position on the map and the delivery is not easily received. In that case, in order to improve the predictability of the user, how long it takes to deliver may be displayed in the vicinity of the object 18. Thus, each user can predict the time of delivery without knowing the delivery order of the products, and therefore can prepare the event with a margin.

[Modification]
In the above embodiment, the display size of the object 18 is changed linearly according to the distance D between the two points of the store and the destination and the distance Dnow between the two points of the current position of the delivery bike 5 and the destination. It was. However, the display size of the circle of the object 18 may be changed nonlinearly based on the progress value calculated from the distance D and the distance Dnow. Further, the display size of the object 18 may be changed by comparing the progress value calculated from the distance D and the distance Dnow with a predetermined threshold value.

  For example, in FIG. 10, the horizontal axis represents the progress value (progress rate) (%), and the vertical axis represents the radius R of the object 18. According to this, progress radius is the same radius in each range of 0% -25%, 25% -50%, 50% -70%, 70% -85%, 85% -95%, 95% -100% The display size of the object 18 is determined to be an R circle. Also according to this modification, it is possible to notify the user of the delivery status of the delivery bike 5 while displaying the object 18 which is information that does not specify the actual position of the delivery bike 5 on the map.

(Hardware configuration example)
Finally, a hardware configuration example of the server 1 according to the present embodiment will be described with reference to FIG. FIG. 11 is a diagram illustrating a hardware configuration example of the server 1 according to the present embodiment. The server 1 includes an input device 101, a display device 102, an external I / F 103, a RAM (Random Access Memory) 104, a ROM (Read Only Memory) 105, a CPU (Central Processing Unit) 106, a communication I / F 107, and an HDD (Hard). Disk Drive) 108 and the like are connected to each other via a bus B.

  The input device 101 includes a keyboard and a mouse, and is used to input each operation signal to the server 1. The display device 102 includes a signage unit (display) and displays various processing results.

  The communication I / F 107 is an interface that connects the server 1 to the network 3. Thereby, the server 1 performs data communication with the user terminal 2 via the communication I / F 107.

  The HDD 108 is a non-volatile storage device that stores programs and data. The stored programs and data include basic software and application software that control the entire server 1. The HDD 108 stores various table information and programs. For example, the bike position information table 110, the store information table 120, the user member information table 130, and the order information table 140 may be stored in the HDD 108 or on a cloud computer connected to the server 1 via the network 3. It may be stored in a storage area.

  The external I / F 103 is an interface with an external device. The external device includes a recording medium 103a. Thereby, the server 1 can read and / or write to the recording medium 103 a via the external I / F 103. Examples of the recording medium 103a include a CD (Compact Disk), a DVD (Digital Versatile Disk), an SD memory card (SD Memory card), a USB memory (Universal Serial Bus memory), and the like.

  The ROM 105 is a nonvolatile semiconductor memory (storage device) that can retain internal data even when the power is turned off. The ROM 105 stores programs and data. The RAM 104 is a volatile semiconductor memory (storage device) that temporarily stores programs and data. The CPU 106 is an arithmetic device that realizes a mounted function by reading a program or data from the HDD 108 or the ROM 105 onto the RAM 104 and executing display control processing of the delivery status display system 10.

  The display control program, the display control method, and the computer have been described in the above embodiment. However, the display control program, the display control method, and the computer according to the present invention are not limited to the above embodiment, and are within the scope of the present invention. Various modifications and improvements are possible. Moreover, the matters described in the plurality of embodiments can be combined within a consistent range. Each function of the computer may be configured by hardware, may be configured by software, or may be configured by combining hardware and software.

  For example, the configuration of the delivery status display system 10 according to the above-described embodiment is an example, and does not limit the scope of the present invention, and various system configurations can be taken according to applications and purposes.

  For example, the system configuration in which the server 1 and the user terminal 2 are connected to each other via the network 3 is an aspect of the delivery status display system 10 according to the present embodiment, and is not limited thereto. For example, the number of servers 1 and user terminals 2 included in the delivery status display system 10 according to the present embodiment may be one or two or more. When a plurality of servers 1 are installed, the delivery status display process can be distributed among the plurality of servers 1. Note that the delivery status display processing function may be selectively aggregated in one of the plurality of servers 1 in accordance with the use and purpose.

Regarding the above description, the following items are further disclosed.
(Appendix 1)
Get the current position of the moving body moving toward the destination,
Based on the acquired distance between the current position of the moving body and the destination, the display size of the object indicating the position of the moving body is determined,
Causing the display unit to display a display screen in which the object having the determined display size is arranged on a map so that at least an outer edge of the object includes the current position of the moving body inside;
A display control program that causes a computer to execute processing.
(Appendix 2)
The process for determining the display size includes:
The display size is determined so that the object is displayed smaller as the distance between the acquired current position of the moving object and the destination decreases.
The display control program according to attachment 1.
(Appendix 3)
The process of displaying the object includes
Displaying the object such that the current position of the moving body is randomly positioned within the outer edge of the object;
The display control program according to appendix 1 or 2.
(Appendix 4)
The process of displaying the object includes
Do not display the map information contained inside the outer edge of the object,
The display control program according to any one of appendices 1 to 3.
(Appendix 5)
Acquire the position of the moving body moving toward the destination at different time points,
For each of the plurality of positions of the acquired moving body, based on the distance to the destination, determine the display size of the object,
For each of the determined plurality of objects, arrange on the map so that at least the outer edge of the object includes the position corresponding to the object inside,
The display control program according to any one of supplementary notes 1 to 4, which causes the computer to execute processing.
(Appendix 6)
Get the current position of the moving body moving toward the destination,
Based on the acquired distance between the current position of the moving body and the destination, the display size of the object indicating the position of the moving body is determined,
Causing the display unit to display a display screen in which the object having the determined display size is arranged on a map so that at least an outer edge of the object includes the current position of the moving body inside;
A display control method in which processing is executed by a computer.
(Appendix 7)
The process for determining the display size includes:
The display size is determined so that the object is displayed smaller as the distance between the acquired current position of the moving object and the destination decreases.
The display control method according to attachment 6.
(Appendix 8)
The process of displaying the object includes
Displaying the object such that the current position of the moving body is randomly positioned within the outer edge of the object;
The display control method according to appendix 6 or 7.
(Appendix 9)
The process of displaying the object includes
Do not display the map information contained inside the outer edge of the object,
The display control method according to any one of appendices 6 to 8.
(Appendix 10)
Acquire the position of the moving body moving toward the destination at different time points,
For each of the plurality of positions of the acquired moving body, based on the distance to the destination, determine the display size of the object,
For each of the determined plurality of objects, arrange on the map so that at least the outer edge of the object includes the position corresponding to the object inside,
The display control method according to any one of appendices 6 to 9, wherein the process is executed by a computer.
(Appendix 11)
An acquisition unit for acquiring a current position of a moving object moving toward the destination;
A calculation unit for determining a display size of an object indicating a position of the moving body based on a distance between the acquired current position of the moving body and the destination;
A display control unit that causes the display unit to display a display screen in which the object of the determined display size is arranged on a map so that at least the outer edge of the object includes the current position of the moving body inside;
Having a computer.
(Appendix 12)
The calculation unit includes:
The display size is determined so that the object is displayed smaller as the distance between the acquired current position of the moving object and the destination decreases.
The computer according to appendix 11.
(Appendix 13)
The display control unit
Displaying the object such that the current position of the moving body is randomly positioned within the outer edge of the object;
The computer according to appendix 11 or 12.
(Appendix 14)
The display control unit
Do not display the map information contained inside the outer edge of the object,
The computer according to any one of appendices 11 to 13.
(Appendix 15)
The acquisition unit
Acquire the position of the moving body moving toward the destination at different time points,
The calculation unit includes:
For each of the plurality of positions of the acquired moving body, based on the distance to the destination, determine the display size of the object,
The display control unit
For each of the determined plurality of objects, arrange on the map so that at least the outer edge of the object includes the position corresponding to the object inside,
The computer according to any one of appendices 11 to 14.
(Appendix 16)
On the computer,
Get the current position of the moving body moving toward the destination,
A map of an object having a predetermined display size so that at least an outer edge of the object includes the current position of the moving body on the inner side, and the current position of the moving body is randomly positioned within a range inside the outer edge of the object; Display the display screen placed above on the display unit.
A display control program characterized by causing
(Appendix 17)
Computer
Get the current position of the moving body moving toward the destination,
A map of an object having a predetermined display size so that at least an outer edge of the object includes the current position of the moving body on the inner side, and the current position of the moving body is randomly positioned within a range inside the outer edge of the object; Display the display screen placed above on the display unit.
The display control method characterized by performing this.
(Appendix 18)
An acquisition unit for acquiring a current position of a moving object moving toward the destination;
A map of an object having a predetermined display size so that at least an outer edge of the object includes the current position of the moving body on the inner side, and the current position of the moving body is randomly positioned within a range inside the outer edge of the object; A display control unit for displaying the display screen arranged above on the display unit;
A computer comprising:

1: Server 2: User terminal 3: Network 4: GPS
5: Delivery motorcycle 10: Delivery status display system 11: Positioning unit 12: Acquisition unit 13: Storage unit 14: Calculation unit 15: Display control unit 16: Communication unit 18: Object 110: Bike position information table 120: Store information table 130 : User member information table 140: Order information table

Claims (6)

Get the current position of the moving body moving toward the destination,
Based on the acquired distance between the current position of the moving body and the destination, the display size of the object indicating the position of the moving body is determined,
Causing the computer to execute a process of causing the display unit to display a display screen arranged on the map such that at least the outer edge of the object includes the current position of the moving body inside the object of the determined display size ,
The process for determining the display size includes:
The display size is determined so that the object is displayed smaller as the distance between the acquired current position of the moving object and the destination decreases.
Display control program. The process of displaying the object includes
Displaying the object such that the current position of the moving body is randomly positioned within the outer edge of the object;
The display control program according to claim 1 . The process of displaying the object includes
Do not display the map information contained inside the outer edge of the object,
The display control program according to claim 1 or 2 . Acquire the position of the moving body moving toward the destination at different time points,
For each of the plurality of positions of the acquired moving body, based on the distance to the destination, determine the display size of the object,
For each of the determined plurality of objects, arrange on the map so that at least the outer edge of the object includes the position corresponding to the object inside,
The display control program according to any one of claims 1 to 3 , which causes the computer to execute processing. Get the current position of the moving body moving toward the destination,
Based on the acquired distance between the current position of the moving body and the destination, the display size of the object indicating the position of the moving body is determined,
The computer executes a process of causing the display unit to display a display screen arranged on the map such that at least the outer edge of the object includes the current position of the moving body inside the object of the determined display size ,
The process for determining the display size includes:
The display size is determined so that the object is displayed smaller as the distance between the acquired current position of the moving object and the destination decreases.
Display control method. An acquisition unit for acquiring a current position of a moving object moving toward the destination;
A calculation unit for determining a display size of an object indicating a position of the moving body based on a distance between the acquired current position of the moving body and the destination;
The determined object of the display size, possess at least a display control unit outer edge of the object is displayed on the display unit a display screen arranged on the map to include inside the current position of the movable body, and
The calculation unit includes:
The display size is determined so that the object is displayed smaller as the distance between the acquired current position of the moving object and the destination decreases.
Computer.

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