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CN-122009080-A - Riding safety control method, riding safety control device, vehicle and storage medium

CN122009080ACN 122009080 ACN122009080 ACN 122009080ACN-122009080-A

Abstract

The application provides a riding safety control method, a riding safety control device, a vehicle and a storage medium, comprising the steps of obtaining a visual monitoring result aiming at a riding object in a vehicle cabin through a visual sensor; the method comprises the steps of monitoring vital signs in a vehicle cabin, determining a vital body monitoring result, determining a fusion monitoring result aiming at a target riding object according to the vital body monitoring result and the visual monitoring result, and controlling riding safety according to the fusion monitoring result and a vehicle riding scene, so that efficient and accurate riding safety control can be realized.

Inventors

  • SUN YUCHEN
  • WANG JIAHE
  • SHEN JINRUI
  • LIN KEN

Assignees

  • 科大讯飞股份有限公司

Dates

Publication Date
20260512
Application Date
20260213

Claims (11)

  1. 1. A riding safety control method, characterized by comprising: Acquiring a visual monitoring result aiming at a riding object in a vehicle cabin through a visual sensor; monitoring vital signs in the vehicle seat cabin, and determining a vital sign monitoring result; determining a fusion monitoring result aiming at a target riding object according to the life body monitoring result and the visual monitoring result; and carrying out riding safety control according to the fusion monitoring result and the riding scene of the vehicle.
  2. 2. The method of claim 1, wherein the vital sign monitoring of the vehicle cabin to determine a vital sign monitoring result comprises: determining an area riding object under each monitoring area in the vehicle cabin according to the visual monitoring result; According to the regional riding object, adjusting monitoring parameters of a vital sign monitor; And monitoring vital signs in the vehicle cabin according to the adjusted vital sign monitor, and determining the vital sign monitoring result.
  3. 3. The method of claim 2, wherein adjusting the monitoring parameters of the vital sign monitor according to the regional bus object comprises: In response to the regional bus object being an adult, reducing the monitoring sensitivity of the vital sign monitor to the corresponding monitoring region of the regional bus object, or In response to the area riding object being a backward installed child safety seat, the monitoring sensitivity of the vital sign monitor for the area riding object corresponding to the monitoring area is improved and/or specific monitoring parameters are adjusted, wherein the specific monitoring parameters comprise parameters for indicating the vital sign monitor to analyze specific frequency band signals corresponding to vital signs, or And responding to the situation that the regional riding object is the child safety seat installed forwards or does not comprise the child safety seat, and adjusting the monitoring parameters to be parameters corresponding to a preset monitoring mode.
  4. 4. The method of claim 1, wherein the determining a fusion monitoring result for a target ride object based on the vital body monitoring result and the visual monitoring result comprises: And fusing the type of the riding object in the visual monitoring result and the size and micro-motion characteristics of the measured object in the life body monitoring result, and determining the fused monitoring result.
  5. 5. The method of claim 1, wherein the target ride object is a ride object having vital signs; the determining a fusion monitoring result for the target riding object according to the life body monitoring result and the visual monitoring result comprises the following steps: determining the type and position of the target riding object to obtain the fusion monitoring result in response to the riding object in the visual monitoring result comprising the target riding object, or Determining that the fusion monitoring result comprises the presence of an occluded target riding object in the vehicle cabin in response to the visual monitoring result indicating that no target riding object exists in a living body region, wherein the living body region is a region in which a living body exists in the living body monitoring result, or In response to the visual monitoring result indicating that a target riding object is not present in an inanimate object region, determining that the fusion monitoring result includes that the target riding object is not present in the vehicle cabin, wherein the inanimate object region is a region in which no animate object is present in the animate object monitoring result.
  6. 6. The method of any one of claims 1-5, wherein the fusion monitoring result is the presence of a child in the vehicle cabin, and the vehicle ride is a vehicle flameout and door lock; and carrying out riding safety control according to the fusion monitoring result and the riding scene of the vehicle, wherein the riding safety control comprises the following steps: triggering a first riding safety alarm in response to a first preset time length after the vehicle door is locked; Triggering a second ride safety alarm within a second preset duration in response to the first ride safety alarm ending and detecting that the child is present in the vehicle cabin, the second ride safety alarm being higher in level than the first ride safety alarm; at least one safety control step of controlling the temperature in the vehicle cabin, starting an escape mechanism in the vehicle cabin, reporting corresponding riding information is performed.
  7. 7. The method of any one of claims 1-5, wherein the fusion monitoring result is the presence of a child in the vehicle cabin in a rearwardly mounted child safety seat, the vehicle seating scenario being a vehicle collision scenario; and carrying out riding safety control according to the fusion monitoring result and the riding scene of the vehicle, wherein the riding safety control comprises the following steps: closing and/or prompting closing of a passenger side airbag in the vehicle cabin.
  8. 8. The method according to any one of claims 1-5, further comprising: acquiring the real-time gesture of the target riding object through the visual sensor; Determining whether the target riding object has preset dangerous riding behaviors or not according to the real-time gesture; And prompting the dangerous riding behavior.
  9. 9. A riding safety control device, comprising: the visual monitoring module is used for acquiring a visual monitoring result aiming at a riding object in a vehicle cabin through a visual sensor; the vital sign monitoring module is used for monitoring vital signs in the vehicle seat cabin and determining a vital sign monitoring result; the fusion monitoring module is used for determining a fusion monitoring result aiming at a target riding object according to the life body monitoring result and the visual monitoring result; And the riding safety control module is used for carrying out riding safety control according to the fusion monitoring result and the riding scene of the vehicle.
  10. 10. A vehicle, characterized by comprising: Processor, and A memory for storing executable instructions of the processor; Wherein the processor is configured to perform the method of any one of claims 1 to 8 via execution of the executable instructions.
  11. 11. A computer readable storage medium storing a computer program, characterized in that the computer program, when executed by a processor, implements the method of any one of claims 1 to 8.

Description

Riding safety control method, riding safety control device, vehicle and storage medium Technical Field The embodiment of the application relates to the technical field of vehicle monitoring, and more particularly relates to a riding safety control method, a riding safety control device, a vehicle and a storage medium. Background With the intelligent development of vehicles, ride safety has become a central concern for the vehicle safety rating system. Currently, in a riding scene, it is necessary to perform safety monitoring on a riding object such as a riding child, so as to perform riding safety control according to a monitoring result. For example, it is necessary to monitor whether there is a child left behind or entering the vehicle by itself, and to prompt whether the child is safely seated in the cabin, or the like. Therefore, how to realize efficient and accurate riding safety control is a technical problem to be solved by the application. Disclosure of Invention The application provides a riding safety control method, a device, a vehicle and a storage medium, wherein a visual sensor is used for acquiring a visual monitoring result of a riding object in a vehicle cabin, vital sign monitoring is carried out in the vehicle cabin, the vital sign monitoring result is determined, then a fusion monitoring result of the target riding object can be determined according to the vital sign monitoring result and the visual monitoring result, riding safety control is carried out according to the fusion monitoring result and a vehicle riding scene, therefore, double verification and complementary perception of the state of the target riding object such as children in the vehicle cabin can be realized through the fusion of the visual monitoring and the vital sign monitoring result, the monitoring and control limitation of a single monitoring scheme in complex scenes such as shielding, weak light and the like can be overcome, the recall rate and the recognition precision of the existence detection of the target riding object such as children in the vehicle cabin can be improved, and the riding safety control of the vehicle can be further combined with the vehicle scene to carry out automatic riding safety control, so that the high-efficiency and accurate riding safety control of the riding object can be realized in a real driving environment. Other features and advantages of the application will be apparent from the following detailed description, or may be learned by the practice of the application. According to one aspect of the application, a riding safety control method is provided, and the riding safety control method comprises the steps of obtaining a visual monitoring result aiming at a riding object in a vehicle cabin through a visual sensor, monitoring vital signs in the vehicle cabin, determining the vital signs monitoring result, determining a fusion monitoring result aiming at a target riding object according to the vital signs monitoring result and the visual monitoring result, and carrying out riding safety control according to the fusion monitoring result and a riding scene of the vehicle. According to one aspect of the application, a riding safety control device is provided, and comprises a visual monitoring module, a vital sign monitoring module, a fusion monitoring module and a riding safety control module, wherein the visual monitoring module is used for acquiring a visual monitoring result aiming at a riding object in a vehicle cabin through a visual sensor, the vital sign monitoring module is used for monitoring vital signs in the vehicle cabin to determine the vital sign monitoring result, the fusion monitoring module is used for determining a fusion monitoring result aiming at a target riding object according to the vital sign monitoring result and the visual monitoring result, and the riding safety control module is used for carrying out riding safety control according to the fusion monitoring result and a riding scene of the vehicle. According to an aspect of the present application, there is provided a vehicle/electronic device comprising a processor and a memory for storing a computer program, the processor being for invoking and running the computer program stored in the memory to perform the steps of the above-described ride safety control method. According to an aspect of the present application, there is provided a chip comprising a processor for calling and running a computer program from a memory, such that the processor performs the steps of the above-described ride safety control method. According to an aspect of the present application, there is provided a computer-readable storage medium storing a computer program that causes a computer to execute the steps of the above-described ride safety control method. Based on the technical scheme, the fusion monitoring result of the target riding object can be obtained by fusing the visual monitoring result of the riding object in the veh