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JP-7856209-B2 - Processing system, processing method, and program

JP7856209B2JP 7856209 B2JP7856209 B2JP 7856209B2JP-7856209-B2

Inventors

  • 水越 康博
  • 三島 吉弘
  • 山下 哲孝
  • 藤井 秋紗子

Assignees

  • 日本電気株式会社

Dates

Publication Date
20260511
Application Date
20230227

Claims (11)

  1. A stop detection means that acquires parking location information indicating the parking location of a vehicle, and detects a stop event that stops the use of a vehicle by comparing the location indicated by the parking location information with a pre-registered registered area, A reference value registration means for registering the CO2 concentration inside the vehicle at the time the aforementioned stop event is detected as a reference value, An abandoned animal detection means for detecting the abandonment of an organism in the vehicle by comparing the CO2 concentration inside the vehicle after the stop event is detected with the reference value, A processing system having the following features.
  2. The stop detection means is The processing system according to claim 1, which acquires information indicating the position of the vehicle when a parking-related event is detected, including at least one of the following: an engine stop process for the vehicle, a power off process for the vehicle, a door lock process based on a predetermined lock operation to lock the vehicle's doors from outside the vehicle, an event in which the vehicle's position does not change for a predetermined period of time or longer, and the absence of a person in the driver's seat, as the parking position information.
  3. The stop detection means is The processing system according to claim 1 or 2, which detects the stop event based on the registered area registered for each vehicle.
  4. The stop detection means is Based on the past location history of each vehicle, the registration area is registered for each vehicle. The processing system according to claim 3, which registers locations where a person has remained for a predetermined period of time or longer in the past as the registered area.
  5. The stop detection means is The processing system according to claim 3, which registers the registration area for each vehicle based on user input.
  6. The stop detection means is Based on the registration area used in common by multiple of the aforementioned vehicles, the stop event is detected, The processing system according to claim 1 or 2, wherein the parking lot of a designated facility is registered as the registered area used in common by multiple vehicles.
  7. The abandoned item detection means is If the abandonment of an animal in the vehicle is detected and the condition of the vehicle at that time satisfies the first condition, the first warning process is executed. If the abandonment of an animal in the vehicle is detected, and the condition of the vehicle at that time does not satisfy the first condition, the second warning process is executed. The processing system according to claim 1 or 2, wherein the content of the first warning process and the second warning process are different from each other.
  8. The first condition is, The temperature inside the vehicle is within a predetermined danger range. The doors of the aforementioned vehicle are locked. The location of the vehicle is within a predetermined area, and The time is within a predetermined time period. The processing system according to claim 7, which includes any one of the following.
  9. The stop detection means is Based on the past location history of each vehicle, the registration area is registered for each vehicle. It detects the absence of a person in the driver's seat, The processing system according to claim 1 or 2, wherein in the past, a location where a person remained in the driver's seat for a predetermined period of time or longer without being present is registered as the registered area.
  10. Computers The system acquires parking location information indicating the vehicle's parking position, and by comparing the location indicated by the parking location information with a pre-registered area, it detects a stop event that indicates the vehicle's use has been stopped. The CO2 concentration inside the vehicle at the time the aforementioned stop event is detected is registered as a reference value. A method for detecting the presence of an organism in a vehicle by comparing the CO2 concentration inside the vehicle after the stop event has been detected with the reference value.
  11. Computers, A stop detection means that acquires parking location information indicating the parking position of a vehicle, and detects a stop event that stops the use of a vehicle by comparing the location indicated by the parking location information with a pre-registered registered area. A reference value registration means for registering the CO2 concentration inside the vehicle at the time the aforementioned stop event is detected as a reference value. A means for detecting the presence of an organism in the vehicle by comparing the CO2 concentration inside the vehicle after the stop event has been detected with the reference value. A program that makes it function as such.

Description

This invention relates to a processing system, a processing method, and a recording medium. Technologies related to the present invention are disclosed in Patent Documents 1 to 3. The technology disclosed in Patent Document 1 determines that a vehicle is parked when the engine is off, there is no driver inside the vehicle, and all doors are closed, and detects the presence of living organisms in the vehicle based on the CO2 concentration inside the vehicle in that state. The technology disclosed in Patent Document 2 determines that a vehicle is parked when its ignition switch is in the off position, and detects the presence of living organisms in the vehicle based on the CO2 concentration inside the vehicle in that state. The technology disclosed in Patent Document 3 determines that a vehicle is parked when the engine is off, and detects the presence of living organisms in the vehicle based on the CO2 concentration inside the vehicle in that state. International Publication No. 2021/090892Japanese Patent Publication No. 2020-201108Japanese Patent Publication No. 2019-168858 The aforementioned objectives and other objectives, features, and advantages will become even clearer from the preferred embodiments described below and the accompanying drawings. This figure shows an example of a functional block diagram of a processing system.This figure shows another example of a functional block diagram of a processing system.This diagram illustrates an example of a process for detecting the abandonment of living organisms in vehicles.This diagram illustrates a potential challenge that may arise in a process for detecting abandoned animals in vehicles.This diagram illustrates another example of a process for detecting the abandonment of living organisms in a vehicle.This figure shows an example of the overall structure of a system that includes a processing system.This figure shows an example of the hardware configuration of an information system.This diagram schematically illustrates an example of the information processed by an information system.This is a flowchart illustrating an example of the processing flow of a processing system.Here is another example of the processing flow of a processing system: a flowchart.Here is another example of the processing flow of a processing system: a flowchart.Here is another example of the processing flow of a processing system: a flowchart.Here is another example of the processing flow of a processing system: a flowchart.This figure shows another example of a functional block diagram of a processing system.This diagram schematically illustrates another example of the information processed by an information system.This figure shows another example of the overall structure of a system that includes a processing system.This figure shows another example of the overall structure of a system that includes a processing system.This figure shows another example of the overall structure of a system that includes a processing system. The embodiments of the present invention will be described below with reference to the drawings. In all drawings, similar components are denoted by the same reference numerals, and their descriptions are omitted as appropriate. <First Embodiment> Figure 1 is a functional block diagram showing an overview of the processing system 10 according to the first embodiment. The processing system 10 includes a stop detection unit 11, a reference value registration unit 12, an abandoned unit detection unit 13, and a storage unit 14. The processing system 10 does not necessarily have a storage unit 14. In this case, an external device configured to communicate with the processing system 10 includes the storage unit 14. The stop detection unit 11 acquires parking location information indicating the vehicle's parking position. The stop detection unit 11 then detects a stop event, which means the vehicle's use has been stopped, by comparing the location indicated by the parking location information with a pre-registered registered area. The reference value registration unit 12 registers the CO2 concentration inside the vehicle at the time the stop event is detected as a reference value in the storage unit 14. The abandoned animal detection unit 13 detects the abandonment of an animal in the vehicle by comparing the CO2 concentration inside the vehicle after the stop event is detected with the reference value registered in the storage unit 14. In this way, the processing system 10 detects a stop event that indicates the vehicle's use should be stopped by comparing the vehicle's parking location with a pre-registered area. Specifically, the condition for detecting a stop event is that "the vehicle's parking location is within the registered area." Then, the processing system 10 detects the presence of living organisms in the vehicle based on the CO2 concentration inside the vehicle after the stop event has been detected. According to this processing system 10, the process