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WO-2026094183-A1 - INFORMATION PROCESSING DEVICE, INFORMATION PROCESSING METHOD, AND PROGRAM

WO2026094183A1WO 2026094183 A1WO2026094183 A1WO 2026094183A1WO-2026094183-A1

Abstract

Provided is an information processing device comprising: a video reception unit that receives a video captured by a camera mounted on a vehicle; a determination unit that, in response to the video reception unit receiving the video, determines the status of an AI processing server that executes AI processing for analyzing the video and generating vehicle status data representing the status of the vehicle; and a control unit that causes the AI processing server to analyze the video when the status of the AI processing server determined by the determination unit satisfies a predetermined condition, and stores the video in a video storage unit when the status of the AI processing server does not satisfy the condition.

Inventors

  • KITAZAWA YOSHINORI

Assignees

  • ソフトバンク株式会社

Dates

Publication Date
20260507
Application Date
20241030

Claims (12)

  1. A video receiving unit that receives video captured by a camera mounted on the vehicle, A determination unit determines the status of an AI processing server that performs AI processing to analyze the video and generate vehicle status data representing the status of the vehicle, in response to the video receiving unit receiving the video. An information processing apparatus comprising: a control unit that, when the status of the AI processing server determined by the determination unit satisfies predetermined conditions, causes the AI processing server to analyze the video, and when the status of the AI processing server does not satisfy the conditions, stores the video in a video storage unit.
  2. The determination unit determines the processing load of the AI processing server, The information processing apparatus according to claim 1, wherein the control unit causes the AI processing server to analyze the video when the processing load is lower than a predetermined processing load threshold, and stores the video in the video storage unit when the processing load is higher than the processing load threshold.
  3. The information processing apparatus according to claim 2, wherein the control unit causes the AI processing server to analyze the video stored in the video storage unit in response to a change in the processing load of the AI processing server from a state higher than the processing load threshold to a state lower than the processing load threshold.
  4. The AI processing server has a RAN control function for controlling RAN and an AI processing function for performing AI processing. The determination unit determines the processing load of the RAN control function of the AI processing server in response to the video receiving unit receiving the video. The information processing apparatus according to claim 2, wherein the control unit causes the AI processing server to analyze the video when the processing load of the RAN control function is lower than a predetermined processing load threshold, and stores the video in the video storage unit when the processing load of the RAN control function is higher than the processing load threshold.
  5. The information processing apparatus according to any one of claims 1 to 4, wherein the control unit causes the AI processing server to analyze the video when the elapsed time from the vehicle transmitting the video to the video receiving unit receiving it is shorter than a predetermined time threshold, and the status of the AI processing server determined by the determination unit satisfies the above conditions.
  6. The information processing apparatus according to claim 5, wherein the control unit stores the video in the video storage unit when the elapsed time from the vehicle transmitting the video to the video receiving unit receiving it is shorter than the time threshold, and the status of the AI processing server determined by the determination unit does not satisfy the conditions, or when the elapsed time is longer than the time threshold.
  7. The information processing apparatus according to any one of claims 1 to 4, wherein the control unit, when the video receiving unit receives multiple videos from multiple vehicles, causes the AI processing server to analyze the multiple videos in the order of priority of the multiple vehicles until the processing load of the AI processing server exceeds a predetermined processing load threshold.
  8. The information processing apparatus according to claim 7, wherein, when the video receiving unit receives multiple videos from multiple vehicles, the control unit causes the AI processing server to analyze the multiple videos in order of increasing risk based on the attributes of the respective locations of the multiple vehicles, until the processing load of the AI processing server exceeds a predetermined processing load threshold.
  9. The information processing apparatus according to claim 7, wherein, when the video receiving unit receives multiple videos from multiple vehicles, the control unit causes the AI processing server to analyze the multiple videos in an order of priority based on the attributes of the passengers of each of the multiple vehicles until the processing load of the AI processing server exceeds a predetermined processing load threshold.
  10. The information processing apparatus according to claim 1, wherein the control unit predicts the analysis time of the video by the AI processing server, and if the analysis time is shorter than a predetermined time threshold, it causes the AI processing server to analyze the video; and if the analysis time is longer than the time threshold, it stores the video in the video storage unit.
  11. A method of information processing performed by a computer, The video reception stage involves receiving video footage captured by a camera mounted on the vehicle, In the video reception stage, a determination stage is made to determine the status of the processing execution unit that performs AI processing to analyze the video and identify the status of the vehicle, in response to the reception of the video. An information processing method comprising: a control step of causing the processing execution unit to analyze the video if the status of the processing execution unit determined in the determination step satisfies predetermined conditions, and storing the video in a video storage unit if the status of the processing execution unit does not satisfy the conditions.
  12. On the computer, The video reception stage involves receiving video footage captured by a camera mounted on the vehicle, In the video reception stage, a determination stage is made to determine the status of the processing execution unit that performs AI processing to analyze the video and identify the status of the vehicle, in response to the reception of the video. A program for executing a control step which, if the status of the processing execution unit determined in the determination step satisfies predetermined conditions, causes the processing execution unit to analyze the video, and if the status of the processing execution unit does not satisfy the conditions, causes the video to be stored in the storage unit.

Description

Information processing device, information processing method, and program This invention relates to an information processing device, an information processing method, and a program. Patent Document 1 describes performing inference using an inference model with video data captured by a camera installed in a vehicle, and recording the results of the inference in a video file that records the video data. Patent Document 2 describes learning the driving tendencies of each driver of multiple vehicles based on recorded data that includes at least vehicle information acquired for each of the multiple vehicles. Patent Document 3 describes a server that stores and manages various information such as recording information, event information, and information related to the results of aggressive driving judgments, corresponding to image information acquired by a drive recorder. Patent Document 4 describes a terminal having a communication control means for receiving multiple image information transmitted from a camera installed in a vehicle, and an image information storage means for storing the multiple image information received from the camera in a storage means for the terminal when the state of the vehicle satisfies predetermined recording conditions. [Prior art documents] [Patent Documents] [Patent Document 1] Japanese Unexamined Patent Publication No. 2024-005859 [Patent Document 2] Japanese Unexamined Patent Publication No. 2023-130253 [Patent Document 3] Japanese Unexamined Patent Publication No. 2022-101447 [Patent Document 4] Japanese Unexamined Patent Publication No. 2022-157491 An example of the information processing system 10 is shown in outline.An example of the processing flow by the information processing device 100 is shown in a schematic manner.An example of the processing flow by the information processing device 100 is shown in a schematic manner.An example of the processing flow by the information processing device 100 is shown in a schematic manner.An example of the processing flow by the information processing device 100 is shown in a schematic manner.An example of the processing flow by the information processing device 100 is shown in a schematic manner.An example of the processing flow by the information processing device 100 is shown in a schematic manner.An example of the network configuration of the information processing device 100 is shown schematically.An example of the network configuration of the information processing device 100 is shown schematically.An example of the functional configuration of the information processing device 100 is shown schematically.A schematic example of the hardware configuration of a computer 1200 that functions as an information processing device 100 or an AI processing server 200 is shown. The present invention will be described below through embodiments, but these embodiments are not intended to limit the scope of the claims. Furthermore, not all combinations of features described in the embodiments are necessarily essential to the solution of the invention. Figure 1 schematically shows an example of an information processing system 10. The information processing system 10 includes an information processing device 100. The information processing system 10 includes an AI processing server 200. The information processing system 10 may include a relay unit 310. The information processing system 10 may include a database 320. The information processing system 10 may include an operation PF server 330. The information processing device 100 collects video footage 410 captured by the camera 402 mounted on the vehicle 400. The information processing device 100 may receive the video footage 410 via a mobile communication network. The video footage 410 may be transmitted by the camera 402 or by a communication device mounted on the vehicle 400. The information processing device 100 transmits the collected video footage 410 to the AI processing server 200. Vehicle 400 may be a so-called autonomous vehicle. Camera 402 may be a drive recorder. Camera 402 may also be a camera that captures images for use in controlling autonomous driving. Camera 402 may be any other type of camera. Note that vehicle 400 does not necessarily have to be an autonomous vehicle. The AI processing server 200 analyzes the video 410 received from the information processing device 100 and performs AI processing to generate vehicle status data 220 representing the status of the vehicle 400. The vehicle status data 220 may be text data representing the status of the vehicle 400. The AI processing server 200 may pre-store a learning model that takes video 410 as input and outputs vehicle status data 220 representing the status of the vehicle 400 equipped with the camera 402 that captured the video 410. This learning model is generated by using multiple learning data sets, each containing video 410 and vehicle status data 220 representing the status of the vehicle 400 equipped with the camera 40