JP7207120B2 - Information processing equipment - Google Patents

Description

The present invention relates to an information processing device.

In recent years, it has been proposed to provide various services using an automatic driving vehicle. For example, Patent Literature 1 proposes delivery of a package to a home delivery box at a delivery destination by an automatically driving vehicle.

JP 2018-177439 A

When multiple autonomous vehicles are operated as shared buses or unmanned shops, it is assumed that it will be difficult for the user to know when and where the desired type of autonomous vehicle will stop.

Therefore, it is an object of the present invention to provide a technology that makes it easier to use each automatic driving vehicle that is operated as a shared bus or an unmanned store.

An information processing device according to the present invention includes:
From the image captured by the imaging device, search for a marker figure that includes identification marks of itself and others and that indicates the position of the stop area of at least one type of automatic driving vehicle among a plurality of types of automatic driving vehicles. and
Based on the identification mark included in the searched marker graphic, the vehicle is stopped in the stop area whose position is indicated by the marker graphic from the management device that manages the operation status of the plurality of types of automatic driving vehicles. Acquiring vehicle information indicating the type and/or appearance of an automated driving vehicle and schedule information indicating a schedule for stopping the automated driving vehicle in the stop area;
Based on the acquired vehicle information and schedule information, an image showing that the automatically driven vehicle is stopped in the stop area and at least one stop of the automatically driven vehicle in the stop area. generating a superimposed image on which a schedule image indicating the scheduled time is superimposed and displaying the superimposed image on the screen of a display device;
A control unit for executing

ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to make it easier to use each automatic driving vehicle operate|used as a shared bus or an unmanned shop.

1 is a schematic configuration diagram of an information processing apparatus according to an embodiment of the present invention; FIG. FIG. 2 is a system configuration diagram for explaining an automatic driving vehicle. FIG. 3 is a flowchart of information provision processing executed by the control unit of the information processing apparatus according to the embodiment. FIG. 4 is an explanatory diagram of an example of a screen displayed by the route display process.

An embodiment of the present invention will be described in detail below with reference to the drawings.

First, an outline of an information processing apparatus 10 according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2. FIG. FIG. 1 is a schematic configuration diagram of an information processing device 10 according to the present embodiment, and FIG. 2 is a system configuration diagram for explaining an automatically driving vehicle 30. As shown in FIG.

The information processing device 10 ( FIG. 2 ) according to the present embodiment is a device developed to realize an environment in which the vehicle management server 40 facilitates the use of the automated driving vehicle 30 operated as a shared bus or an unmanned store. . In addition, the information processing device 10 has a predetermined shape figure (hereinafter referred to as a stop area mark) including a self-other identification mark (details will be described later) at each position (area) where each automatically driving vehicle 30 stops. It is intended to be used in the area depicted.

The information processing device 10 (FIG. 1) is a device in which an information providing program 25 is installed in a mobile information terminal such as a smart phone (see FIG. 2). Specifically, the information processing device 10 includes a wireless communication unit 11, a display input unit 14, a call processing unit 16, an imaging unit 12, a GPS (Global Positioning System) receiving unit 13, a control unit 15, a call processing unit 16, and a memory. A unit 20 is provided.

The wireless communication unit 11 is a unit for performing communication (information exchange) with other devices via the communication network 50 by wireless communication conforming to communication standards such as 4G and LTE. The photographing unit 12 is a unit mainly composed of an imaging element such as a CCD image sensor and an optical system for forming an image of a subject on an imaging surface of the imaging element. The GPS receiver 13 is a unit that detects the position (latitude and longitude) of the information processing device 10 based on signals from GPS satellites. The display input unit 14 is a unit in which a transparent operation position detection device (so-called touch panel) is superimposed on a display such as an LCD (Liquid Crystal Display) or an OELD (Organic Electro-Luminescence Display).

The control unit 15 is a unit that integrally controls each unit in the information processing apparatus 10 . As the control unit 15, a unit composed of a CPU and its peripheral devices, or a microcontroller is used. The call processing unit 16 converts a sound signal representing the user's voice from the microphone 18 into sound data that can be processed by the control unit 15, and converts encoded sound data received by the wireless communication unit 11 into sound data. It is a unit that performs processing for decoding and supplying to the speaker 17 .

The storage unit 20 is a unit for storing various information. The storage unit 20 is composed of a RAM (random access memory), which is a volatile memory, and a nonvolatile memory such as a flash memory. A program 25 is stored (installed).

The information providing program 25 is a program for causing the information processing device 10 to operate as a device capable of executing an information providing process (details will be described later) for providing the user with information about the automatically driven vehicle 30 (FIG. 2). The information processing apparatus 10 operates as an apparatus capable of executing information providing processing by the control unit 15 reading out the information providing program 25 onto the RAM and executing it.

The automatically driven vehicle 30 ( FIG. 2 ) is a vehicle operated as a shared bus or an unmanned shop by the vehicle management server 40 . More specifically, the autonomous vehicle 30 includes a sensor such as LiDAR (Light Detection and Ranging), a computer that controls the driving system of the autonomous vehicle 30 using information obtained from the sensor, and the like. The autonomously driven vehicle 30 functions as a shared bus or an unmanned store by traveling according to various instructions (instructions for travel routes, instructions for stopping positions, etc.) from the vehicle management server 40 given via the communication network 50. .

As is clear from the above description of the automatically driven vehicle 30, the vehicle management server 40 is a computer that instructs each automatically driven vehicle 30 to be managed about a travel route, a stop position, and the like. The vehicle management server 40 includes a vehicle management database (vehicle management DB) 41 that stores operation schedule information and 3D model data of each automatically driven vehicle 30 to be managed. Here, the 3D model data is data based on which an appearance image of the automatically driven vehicle 30 viewed from any direction can be generated. The operation schedule information is information indicating the travel route of the automatically driven vehicle 30, a plurality of stop positions, arrival/departure times for each stop position, and the like.

Note that the 3D model data in the vehicle management DB 41 is data that can reproduce the name of the store, the name of the product to be sold, and the like drawn on the side of the automatically driven vehicle 30 . In addition, the operation schedule information in the vehicle management DB 41 indicates each stop position of each automatic driving vehicle 30 by the stop position identification information (in this embodiment, a combination of alphabets and numbers) assigned to each stop position. It is information. The above-described stop area mark (a figure of a predetermined shape drawn at the stop position of the autonomous vehicle 30) includes, as an identification mark, stop position identification information for the stop position corresponding to the own stop area mark. there is

The information providing process executed by the information processing apparatus 10 will be described below.

The information providing process is the process of the procedure shown in FIG. The control unit 15 starts this information providing process when the user performs a predetermined operation on the display input unit 14 .

As shown in FIG. 3, during the information providing process, the control unit 15 first waits until the user completes the photographing (step S101). In other words, the control unit 15 waits for the user to perform a shooting operation (operation for operating the shooting unit 12; operation for taking a picture).

When the user completes the photographing, the control unit 15 obtains the photographed image from the photographing unit 12, and searches for a stop area mark from the obtained photographed image (step S102). If the search for the stop area mark fails (step S103; NO), the control unit 15 displays a message on the display of the display input unit 14 to the effect that there is no automatically driven vehicle 30 scheduled to stop within the current shooting range. (Step S106). Then, in step S107, the control unit 15 waits for an instruction input by the user.

On the other hand, if the stop area mark is found (step S103; YES), the control unit 15 performs the following process in step S104.

The control unit 15 first identifies the identification mark included in the vehicle stop area mark by analyzing the image of the vehicle stop area mark in the captured image. As already explained, the identification mark is stop position identification information (a combination of alphabets and numbers), so the control unit 15 identifies the identification mark by so-called character recognition.

Next, based on the identified identification mark, the control unit 15 acquires 3D model data and stop schedule information of the automatically driven vehicle 30 scheduled to stop in the stop area in the captured image from the vehicle management server 40 .

More specifically, control unit 15 transmits a predetermined information request including the identified identification mark (character string) to vehicle management server 40 . Upon receiving this information request, the vehicle management server 40 treats the character string (identification mark) included in the information request as stop position identification information, and retrieves the stop position identified by the stop position identification information from the vehicle management DB 41 ( Hereafter, the 3D model data and operation schedule information of the automatically driven vehicle 30 that stops at the stop position of interest) are read. Next, the vehicle management server 40 generates stop schedule information by extracting the arrival/departure times for the target stop position from the read operation schedule information. Then, the vehicle management server 40 returns the generated stop schedule information and the 3D model data read from the vehicle management DB 41 to the information processing device 10, and the control unit 15 having received these information performs the processing of step S104. finish.

After completing the process of step S104, the control unit 15 uses the information acquired from the vehicle management server 40 to capture an image of the automatically driven vehicle 30 scheduled to stop at the target stop position and the arrival time (image indicating the arrival time). A superimposed image superimposed on the image is generated and displayed on the display of the display input unit 14 (step S105). Note that the superimposed image generated by the control unit 15 is such that the automatically driven vehicle 30 scheduled to stop at the target stop position (hereinafter referred to as the target vehicle) actually appears to be stopped within the stop area mark. It is an image showing only the nearest arrival time after the current time within the stop area mark of the vehicle. As already explained, the vehicle management DB 41 contains 3D model data for each automatically driven vehicle 30 that can reproduce the name of the store, the name of the product to be sold, etc. drawn on the side of the automatically driven vehicle 30. remembered. Therefore, when the superimposed image is displayed on the display by the process of step S104, the user can determine from the superimposed image what kind of service the vehicle of interest is for and when the vehicle of interest will stop at the vehicle of interest. It is possible to grasp whether

After displaying the superimposed image on the display, the control unit 15 waits for an instruction input by the user (step S107). Then, when the user instructs re-imaging (step S107; re-imaging), the control unit 15 starts the processing from step S101, and when the user instructs to end the information provision processing (step S107). ; End) ends the information providing process.

Although not shown in the flowchart (FIG. 3), the control unit 15 performs route display processing when a predetermined instruction is input after displaying the superimposed image on the display. During this route display process, the control unit 15 displays the current position of the automatically driven vehicle 30 stopping at the target stop position, the travel route from the current position to the target stop position, and the map data of the range including the current position and the target stop position. Obtained from the vehicle management server 40 . Then, the control unit 15 displays an image as shown in FIG. 4 on the display based on the acquired information. That is, the control unit 15 causes the display to display a map showing the current position (white circle) of the automatic driving vehicle 30 and the travel route (arrow) to the target stop position, and a reduced superimposed image.

The control unit 15, which has completed the route display processing described above, enters a state of waiting for an instruction input by the user. Then, when the user instructs to redisplay the superimposed image, the control unit 15 displays the superimposed image on the display again, and then waits for an instruction input by the user in step S107.

As described above, the information processing apparatus 10 according to the present embodiment, when the user captures an image of a range (region) in which the stop region mark exists, indicates that the automatically driving vehicle 30 is stopped within the range. is displayed on the display. Since the superimposed image also shows the scheduled stop time (arrival time) of the automatically driven vehicle 30, the user can, from the superimposed image, determine whether the automatically driven vehicle 30 stops in the stop area indicated by the stop area mark in the shooting range. However, it is possible to grasp what kind of service the vehicle is for and when the automatic driving vehicle 30 will arrive. Therefore, according to the information processing device 10, it is possible to make it easier to use each automatically driven vehicle 30 operated as a shared bus or an unmanned store.

<<Modification>>
The information processing apparatus 10 according to the embodiment described above can be modified in various ways. For example, the process of step S104 in FIG. 3 may be modified to acquire an appearance image of the automatically driven vehicle 30 instead of the 3D model data of the automatically driven vehicle 30 from the vehicle management server 40 . In addition, after storing the 3D model data or appearance images of various automatically driven vehicles 30 in the storage unit 20 of the information processing device 10, the process of step S104 is performed from the vehicle management server 40 to the 3D model data of the automatically driven vehicle 30. Instead, the processing may be modified to acquire information indicating the type of the automatically driven vehicle 30 . In other words, the information acquired together with the stop schedule information from the vehicle management server 40 in the process of step S104 is the type and/or appearance of the automatically driven vehicle 30 that stops in the stop area whose position is indicated by the stop area mark. Any information that indicates

The stop area mark described above is a so-called road sign, but the information processing device 10 can be used as a device corresponding to a road sign type stop region mark, a road sign type stop region mark and a road sign type stop region mark. You may transform into the device corresponding to. When a sign type stop area mark is adopted, for example, the area in front (front side) of the stop area mark is designated as the stop area of the automatically driving vehicle 30 (the area where the appearance image of the automatically driving vehicle 30 is superimposed). ), the information processing apparatus 10 (control unit 15) may be configured.

The superimposed image displayed on the display may be an image showing multiple times (such as all times) in the stop schedule information acquired from the vehicle management server 40 . Also, the screen displayed by the route display process (FIG. 4) may be a screen having another configuration (for example, a screen in which a reduced superimposed image is not displayed).

The processes and means described in the present disclosure can be freely combined and implemented as long as there is no technical contradiction.

Also, the processing described as being performed by one device may be shared and performed by a plurality of devices. Alternatively, processes described as being performed by different devices may be performed by one device. In a computer system, it is possible to flexibly change the hardware configuration (server configuration) to implement each function.

The present invention can also be implemented by supplying a computer program implementing the functions described in the above embodiments to a computer, and reading and executing the program by one or more processors of the computer. Such a computer program may be provided to the computer by a non-transitory computer-readable storage medium connectable to the system bus of the computer, or may be provided to the computer via a network. A non-transitory computer-readable storage medium is any type of disk such as, for example, a magnetic disk (floppy disk, hard disk drive (HDD), etc.), an optical disk (CD-ROM, DVD disk, Blu-ray disk, etc.), Including read only memory (ROM), random access memory (RAM), EPROM, EEPROM, magnetic cards, flash memory, optical cards, any type of medium suitable for storing electronic instructions.

REFERENCE SIGNS LIST 10 information processing device 11 wireless communication unit 12 photographing unit 13 GPS receiving unit 14 display input unit 15 control unit 16 call processing unit 17 speaker 18 microphone 20 storage unit 25 information providing program 30 self-driving vehicle 40 vehicle management server 41 vehicle management database 50 communication network

Claims (1)

From the image captured by the imaging device, search for a marker figure that includes identification marks of itself and others and that indicates the position of the stop area of at least one type of automatic driving vehicle among a plurality of types of automatic driving vehicles. and
Based on the identification mark included in the searched marker graphic, the vehicle is stopped in the stop area whose position is indicated by the marker graphic from the management device that manages the operation status of the plurality of types of automatic driving vehicles. Acquiring vehicle information indicating the type and/or appearance of an automated driving vehicle and schedule information indicating a schedule for stopping the automated driving vehicle in the stop area;
superimposing an image showing a state in which the automatically driven vehicle is stopped in the stop area on the stop area included in the captured image based on the acquired vehicle information ; and further adding the schedule information. Based on, superimposing at least one scheduled stop time of the automatic driving vehicle to the stop area on the captured image, and displaying the obtained superimposed image on the screen of a display device;
An information processing apparatus comprising a control unit that executes

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