阅读说明：本技术 一种车辆异常监控、照明方法及装置 (Vehicle abnormity monitoring and lighting method and device ) 是由 陈瑶 夏媛 于 2020-02-25 设计创作，主要内容包括：一种车辆异常监控、照明方法及装置,该方法包括：车辆在检测到自己发生入侵、剐蹭、碰撞等异常事件时,通知路侧设备进行联合监控。相对于,车辆仅仅自己监控的方式,可解决车辆自己监控的局限问题,实现全方位的智能监控。(A vehicle abnormity monitoring and lighting method and device are provided, the method comprises the following steps: when the vehicle detects abnormal events such as intrusion, scratch and collision, the vehicle informs road side equipment to carry out combined monitoring. Compared with the mode that the vehicle is only monitored, the vehicle monitoring method can solve the limitation problem of vehicle monitoring and realize omnibearing intelligent monitoring.)

A vehicle abnormality monitoring method characterized by comprising:

when a first vehicle detects an abnormal event, starting monitoring equipment in the first vehicle, wherein the monitoring equipment is used for recording a first video of the abnormal event after being started;

the first vehicle determines first road side equipment of an area where the first vehicle is located;

the first vehicle sends a first monitoring request to the first road side equipment, the first monitoring request is used for requesting the first road side equipment to record a second video of the abnormal event, and the first video and the second video are used for tracing the abnormal event.

The method of claim 1, wherein the first vehicle determining a first roadside device to which the first vehicle belongs in an area, comprises:

the first vehicle sends a second monitoring request to surrounding road side equipment, wherein the second monitoring request is used for requesting feedback information of the road side equipment capable of monitoring the first vehicle abnormal event in the surrounding road side equipment;

the first vehicle receives feedback information sent by one or more road side devices including the first road side device, wherein the feedback information indicates that the one or more road side devices can monitor abnormal events of the first vehicle;

the first vehicle determines a first roadside device among the one or more roadside devices.

The method according to claim 2, wherein the first monitoring request carries identification information of the first road side device, and/or carries identification information indicating a communication type of the first monitoring request; the second monitoring request carries position information of the first vehicle and/or identification information representing the communication type of the second monitoring request; the feedback information carries identification information of the corresponding road side equipment and/or carries position information of the corresponding road side equipment.

The method of any of claims 1 to 3, further comprising:

the first vehicle receiving the second video from the first road side device;

the first vehicle sends the first video and the second video to a cloud server.

The method of any of claims 1 to 3, further comprising:

the first vehicle sends the first video to a cloud server.

A vehicle abnormality monitoring method characterized by comprising:

the method comprises the steps that first road side equipment receives a first monitoring request from a first vehicle, wherein the first monitoring request is used for requesting the first road side equipment to record an abnormal event of the first vehicle;

and the first road side equipment records the abnormal event of the first vehicle to obtain a second video.

The method of claim 6, wherein the method further comprises:

the first road side equipment receives a second monitoring request from a first vehicle, wherein the second monitoring request is used for requesting feedback information of road side equipment capable of monitoring the first vehicle abnormal event in surrounding road side equipment;

the first road side device sends a feedback message to the first vehicle when the first road side device determines that the first road side device can monitor the abnormal event of the first vehicle, wherein the feedback message indicates that the first road side device can monitor the abnormal event of the first vehicle.

The method according to claim 7, wherein the first monitoring request carries identification information of the first road side device, and/or carries identification information indicating a communication type of the first monitoring request; the second monitoring request carries position information of the first vehicle and/or identification information representing the communication type of the second monitoring request; the feedback information carries identification information of the first road side device, and/or carries location information of the first road side device.

The method of any of claims 6 to 8, further comprising:

the first road side device sends the second video to the first vehicle; or the first road side device sends the second video to a cloud server.

A vehicle abnormality monitoring method characterized by comprising:

the method comprises the steps that a cloud server receives a first video and a second video from a first vehicle, wherein the first video is a video of a first vehicle abnormal event recorded by the first vehicle, and the second video is a video of the first vehicle abnormal event recorded by a first road side device;

and the cloud server determines an abnormal event of the first vehicle according to the first video and the second video.

A vehicle abnormality monitoring method characterized by comprising:

the method comprises the steps that a cloud server receives a first video from a first vehicle, wherein the first video is a video of a first vehicle abnormal event recorded by the first vehicle;

the cloud server receives a second video from a first road side device, wherein the second video is a video of the first vehicle abnormal event recorded by the first road side device;

and the cloud server determines an abnormal event of the first vehicle according to the first video and the second video.

A method of illuminating a vehicle, comprising:

a first vehicle determines the brightness of the environment surrounding the first vehicle when an abnormal event is detected;

the first vehicle sends a lighting request to a first road side device when the brightness of the environment around the first vehicle is smaller than or equal to a first threshold value, wherein the lighting request is used for requesting the first road side device to turn on a lighting system.

The method of claim 12, wherein the lighting request carries location information of the first vehicle and/or carries indication information indicating a communication type of the lighting request.

A method of illuminating a vehicle, comprising:

a first road side device receives a lighting request from a first vehicle, wherein the lighting request is used for requesting the first road side device to turn on a lighting system;

the first roadside apparatus turns on the lighting system.

The method of claim 14, wherein the lighting request carries location information of the first vehicle and/or carries indication information indicating a communication type of the lighting request.

An apparatus, comprising:

the processing unit is used for starting monitoring equipment in the first vehicle when an abnormal event is detected, and the monitoring equipment is used for recording a first video of the abnormal event after being started;

the processing unit is further configured to determine a first road side device to which an area where the first vehicle is located belongs;

a communication unit, configured to send a first monitoring request to the first road side device, where the first monitoring request is used to request the first road side device to record a second video of the abnormal event, and the first video and the second video are used to trace the abnormal event.

The apparatus according to claim 16, wherein the processing unit, when determining the first roadside device to which the area where the processing unit is located belongs, is configured to:

controlling the communication unit to send a second monitoring request to surrounding road side devices, wherein the second monitoring request is used for requesting feedback information of the road side devices capable of monitoring the first vehicle abnormal event in the surrounding road side devices; the control communication unit receives feedback information sent by one or more road side devices including the first road side device, wherein the feedback information indicates that the one or more road side devices can monitor the abnormal event of the first vehicle;

in the one or more roadside devices, a first roadside device is determined.

The apparatus according to claim 16 or 17, wherein the first monitoring request carries identification information of the first road side device, and/or carries identification information indicating a communication type of the first monitoring request; the second monitoring request carries position information of the first vehicle and/or identification information representing the communication type of the second monitoring request; the feedback information carries identification information of the corresponding road side equipment and/or carries position information of the corresponding road side equipment.

The apparatus according to any of claims 16 to 18, wherein the communication unit is further configured to:

receiving the second video from the first road side device;

and sending the first video and the second video to a cloud server.

The apparatus according to any of claims 16 to 18, wherein the communication unit is further configured to:

and sending the first video to a cloud server.

An apparatus, comprising:

the communication unit is used for receiving a first monitoring request from a first vehicle, wherein the first monitoring request is used for requesting the first road side equipment to record an abnormal event of the first vehicle;

and the processing unit is used for recording the abnormal event of the first vehicle to obtain a second video.

The apparatus of claim 21, wherein the communication unit is further configured to:

receiving a second monitoring request from a first vehicle, wherein the second monitoring request is used for requesting feedback information of roadside equipment capable of monitoring the first vehicle abnormal event in surrounding roadside equipment; when the first road side device determines that the abnormal event of the first vehicle can be monitored, sending a feedback message to the first vehicle, wherein the feedback message indicates that the first road side device can monitor the abnormal event of the first vehicle.

The apparatus according to claim 22, wherein the first monitoring request carries identification information of the first road side device, and/or carries identification information indicating a communication type of the first monitoring request; the second monitoring request carries position information of the first vehicle and/or identification information representing the communication type of the second monitoring request; the feedback information carries identification information of the first road side device, and/or carries location information of the first road side device.

The apparatus according to any of claims 21 to 23, wherein the communication unit is further configured to:

transmitting the second video to the first vehicle; or sending the second video to a cloud server.

An apparatus, comprising:

the communication unit is used for receiving a first video and a second video from a first vehicle, wherein the first video is a video of a first vehicle abnormal event recorded by the first vehicle, and the second video is a video of the first vehicle abnormal event recorded by a first road side device;

and the processing unit is used for determining the abnormal event of the first vehicle according to the first video and the second video.

An apparatus, comprising:

the communication unit is used for receiving a first video from a first vehicle, wherein the first video is a video of the first vehicle abnormal event recorded by the first vehicle;

the communication unit is further configured to receive a second video from a first roadside device, where the second video is a video of the first vehicle abnormal event recorded by the first roadside device;

and the processing unit is further used for determining an abnormal event of the first vehicle according to the first video and the second video.

An apparatus, comprising:

a processing unit for determining a brightness of an environment surrounding the first vehicle when an abnormal event is detected;

the communication unit is used for sending an illumination request to a first road side device when the brightness of the surrounding environment of the first vehicle is smaller than or equal to a first threshold value, and the illumination request is used for requesting the first road side device to turn on an illumination system.

The apparatus of claim 27, wherein the lighting request carries location information of the first vehicle and/or carries indication information indicating a communication type of the lighting request.

An apparatus, comprising:

a communication unit configured to receive a lighting request from a first vehicle, the lighting request requesting the first roadside device to turn on a lighting system;

a processing unit for turning on the lighting system.

The apparatus of claim 29, wherein the lighting request carries location information of the first vehicle and/or carries indication information indicating a communication type of the lighting request.