CN107093327B - Driving collision processing method and system - Google Patents

Abstract

The invention discloses a driving collision processing method and a system, wherein the method comprises the following steps: acquiring collision information by a vehicle event data recorder installed in a vehicle; the automobile data recorder judges whether the collision information meets an alarm triggering condition or not, and if yes, first collision alarm data is generated; the automobile data recorder sends the first collision warning data to an equipment management system; and the equipment management system starts a preset alarm processing program according to the collision alarm data to perform alarm processing. The invention realizes timely rescue of accidents and reduces collision damage of traveling vehicles.

Description

Driving collision processing method and system

Technical Field

The invention relates to the technical field of computer technology and network communication, in particular to a driving collision processing method and system.

Background

With the progress of scientific technology and the continuous development of car networking technology, driving safety becomes a problem generally concerned by people, driving real-time monitoring becomes a current driving safety trend, videos or images of the whole driving process of a car can be recorded, and evidence can be provided for traffic accidents.

In the event of a collision, the driving recording device only adopts a recording mode at present, so that important data cannot be stored for a long time, and intelligent processing cannot be carried out according to the collected data, so that accident personnel can be rescued in time.

Disclosure of Invention

In view of this, the present invention provides a method and a system for handling a vehicle collision, so as to rescue an accident in time and reduce the damage of the vehicle collision.

In order to achieve the purpose, the invention adopts the following technical scheme:

in a first aspect, an embodiment of the present invention provides a driving collision processing method, including:

acquiring collision information by a vehicle event data recorder installed in a vehicle;

the automobile data recorder judges whether the collision information meets an alarm triggering condition or not, and if yes, first collision alarm data is generated;

the automobile data recorder sends the first collision warning data to an equipment management system;

and the equipment management system starts a preset alarm processing program according to the collision alarm data to perform alarm processing.

In a second aspect, an embodiment of the present invention provides a driving collision processing system, including a driving recorder and an equipment management system:

the vehicle event data recorder includes:

a collision sensor for acquiring collision information;

the processor is used for judging whether the collision information meets an alarm triggering condition or not, and if so, generating first collision alarm data;

the communication module is used for sending the first collision warning data to an equipment management system;

and the equipment management system is used for starting a preset alarm processing program according to the collision alarm data to carry out alarm processing.

The invention has the beneficial effects that: according to the driving collision processing method and system, the collision information is obtained through the driving recorder, the alarm can be automatically triggered, the alarm data is sent to the equipment management system, the alarm processing is carried out in time, related personnel can be timely notified in a very short time, the rescue action is carried out, and the occurrence of casualties can be reduced to the maximum extent.

Drawings

The above and other features and advantages of the present invention will become more apparent to those of ordinary skill in the art by describing in detail exemplary embodiments thereof with reference to the attached drawings, in which:

fig. 1 is a schematic flow chart of a driving collision processing method according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a driving collision processing method according to a second embodiment of the present invention;

fig. 3 is a schematic flow chart of a driving collision processing method according to a third embodiment of the present invention;

fig. 4 is a schematic flow chart of a driving collision processing method according to a fourth embodiment of the present invention;

fig. 5 is a block diagram of a driving collision processing system according to a fifth embodiment of the present invention;

fig. 6 is a block diagram of a driving collision processing system according to a sixth embodiment of the present invention.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic flow chart of a driving collision processing method according to an embodiment of the present invention. The method is suitable for emergency handling of vehicle collisions and can be performed by a driving collision handling system. The driving collision processing system comprises a driving recorder and an equipment management system. As shown in fig. 1, the method includes:

and step 110, acquiring collision information by a vehicle event data recorder installed in the vehicle.

A drive recorder mounted on a vehicle is an apparatus capable of recording information related to images, sounds, and the like while the vehicle is running. After the automobile data recorder is installed, the video images and the sound of the whole automobile driving process can be recorded, and evidence can be provided for traffic accidents.

During a vehicle collision, the tachograph may obtain collision information from sensors, such as: the vehicle speed change in the collision process can be acquired from the vehicle speed sensor, the decibel value of impact noise in the collision process can be acquired from the decibel detection chip, the intensity value of collision force in the collision process can also be acquired from the collision sensor, the acceleration in the collision process can also be acquired from the acceleration sensor, and videos and images acquired in the collision process can also be acquired from the camera.

And 120, judging whether the collision information meets the alarm triggering condition or not by the automobile data recorder, and if so, generating first collision alarm data.

Before the vehicle event data recorder acquires the collision information, the alarm condition is preset according to the severity of the collision accident, and when the alarm critical condition is met, namely the alarm triggering condition is met, the vehicle is considered to have the collision accident, for example: when the decibel detection chip detects that the decibel value in the collision process is greater than or equal to 120, the vehicle is considered to have a collision accident, and then 120 decibels are alarm triggering conditions in the decibel value detection process; in order to more accurately distinguish the severity of the vehicle collision, the warning conditions are classified into different grades, namely different warning conditions are met, and the warning grades of the collision are different. And when the alarm condition is met, acquiring collision alarm data corresponding to the alarm condition.

Wherein the collision warning data may include: the collision class, the place where the collision occurred and the time of the collision.

And step 130, the automobile data recorder sends first collision warning data to the equipment management system.

When the automobile data recorder obtains the alarm data, the instant alarm data is sent to the equipment management system through the communication module. The communication module may perform communication in a wired or wireless manner, and generally, wireless mobile communication or microwave communication is adopted.

Step 140, the device management system starts a preset alarm processing program according to the collision alarm data to perform alarm processing.

The equipment management system analyzes the received alarm data, can send alarm information to set equipment in time, and the set equipment reminds related personnel, so that the related personnel can obtain the alarm information at the first time and take collision rescue actions in time. The associated personnel may be the owner himself, relatives and friends of the owner, as well as fire officers, people's police and medical team members.

According to the driving collision processing method provided by the embodiment of the invention, the alarm information is obtained through the driving recorder and is sent to the equipment management system, the alarm processing is carried out in time, related personnel can be informed in a very short time, the rescue action is carried out, and the casualty rate can be reduced to the maximum extent.

Optionally, the vehicle event data recorder judges whether the collision information satisfies the alarm triggering condition, and if so, acquires first collision alarm data, including: the automobile data recorder obtains a collision strength value according to the collision information, judges whether the collision strength value meets a collision warning threshold value or not, and obtains first collision warning data when the collision strength value is larger than the collision warning threshold value.

When the collision information collected by the automobile data recorder is a collision intensity value, the collision intensity value is compared with an alarm threshold value of the collision intensity value, when the collision intensity value is larger than the alarm threshold value of the collision intensity value, the collision severity degree is judged to reach the alarm degree, and then the automobile data recorder obtains collision alarm data.

Example two

Fig. 2 is a schematic flow chart of a driving collision processing method according to a second embodiment of the present invention. On the basis of the above embodiment, the alarm processing of the device management system is specifically optimized, and the method specifically includes:

and step 210, acquiring collision information by a vehicle event data recorder installed in the vehicle.

And step 220, judging whether the collision information meets the alarm triggering condition by the automobile data recorder, and if so, acquiring first collision alarm data.

Step 230, the automobile data recorder sends the first collision warning data to the equipment management system.

Step 240, the device management system receives the first collision warning data, and determines according to a preset sending condition of the short message notification, if the short message notification is started, the first collision warning data is packaged and sent to the user terminal in a short message mode for warning.

And step 250, the equipment management system receives the first collision warning data, judges according to preset sending conditions of the third-party client notification, packages the first collision warning data if the third-party client notification is started, and pushes the first collision warning data to the third-party client for warning.

The steps 240 and 250 may be executed individually or in combination, and the order of the steps is not limited.

And after receiving the collision alarm data, the equipment management system analyzes the alarm data by using the analysis module and sends the analyzed data to the equipment management module and the database module. The database module stores the data; the equipment management module judges according to the preset sending condition of the short message notification, if the short message reminding is started, the alarm data is packaged according to the protocol, and the packaged data is sent to a set user terminal in a short message mode to remind a user terminal user that the vehicle is collided; and if the short message reminding is not started, the reminding is not carried out. When the short message notification is judged, the equipment management module judges according to the preset sending condition of the third-party client notification, if the third-party client notification is started, the alarm data is packaged, and the packaged data is pushed to the client third-party client in a message form; and if the reminding is not set, not reminding. The preset conditions of the short message notification and the push message of the third-party client can be set on the third-party client, and the user terminal number can be rebinding or binding a plurality of user terminal numbers notified by the short message. The user can also obtain collision information from the short message or the notification of the third-party client.

According to the driving collision processing method provided by the embodiment of the invention, after receiving the collision warning data, the equipment management system can give an alarm in a short message notification mode or a message pushing mode of a third-party client, and can send out the warning information in time, so that precious time is won for accident rescue, and the damage caused by driving collision can be effectively reduced.

EXAMPLE III

Fig. 3 is a schematic flow chart of a driving collision processing method according to a third embodiment of the present invention. Optimization is performed on the basis of the embodiment, namely when collision occurs, alarm data are asynchronously obtained and are respectively processed, so that requirements in different aspects can be met. Whether collision information satisfies the trigger condition of reporting an emergency and asking for help or increased vigilance promptly at the driving record appearance judgement, if satisfy, when or after obtaining first collision warning data, still include:

and step 310, the automobile data recorder judges whether collision video recording and/or photographing is executed, if so, a control instruction is sent to the video recording and/or photographing module, corresponding video recording and/or photographing operation is executed, a video collection and/or an image collection before and after collision are obtained, a video image file is formed, and the video image file is stored in a storage.

When or after acquiring collision warning data, the automobile data recorder judges whether to execute video recording operation according to preset conditions, if the video recording operation is executed, the automobile data recorder sends a control instruction to the camera according to the preset conditions for starting the video recording, the camera records the video, the video recording time can be set on the automobile data recorder, after the video recording video is acquired, the video recording video is transmitted to the processor, the processor clips the video, the video collection before and after the collision is acquired, and the video collection is sent to the memory to be stored, wherein the memory is a storage unit which cannot be automatically deleted. When the storage space of the storage is limited, the owner can be reminded to copy the data in time; when the memory is full, the deletion can be performed after receiving a delete command from the processor.

If the video recording operation is not executed, the automobile data recorder judges whether the photographing operation is executed, if the photographing operation is executed, the automobile data recorder sends a control instruction to the camera according to a preset condition for starting photographing, the camera photographs, the photographing frequency and the photographing time can be set on the automobile data recorder, after a photographed image is obtained, the photographed image is transmitted to the processor, the processor screens the image, an image collection before and after collision is obtained, and the image collection is sent to the memory to be stored.

And step 320, the automobile data recorder packages the time, the position and the storage file name of the first collision warning data into second collision warning data and sends the second collision warning data to the equipment management system.

And the automobile data recorder packages the time and the position of the acquired collision warning data and the name of the stored image file, and sends the second collision warning data serving as second collision warning data to the equipment management system. The time is stored and recorded in a time stamp form, and the time stamp is a character sequence and uniquely identifies the time generated by collision warning data; the location is positioning information of a collision place; the storage file name is a folder name for storing video images.

And if the video recording operation and the photographing operation are not executed, the automobile data recorder encapsulates the time stamp and the position information of the collision warning data, and the encapsulated data is sent to the equipment management system.

Further, the method further comprises: the automobile data recorder judges whether to upload the video collection and/or the image collection to the cloud storage, if so, the video collection and/or the image collection cloud storage is uploaded; and the automobile data recorder packages the time and the position of the first collision warning data, the file ID of the cloud storage unit and the name of the cloud storage file into third collision warning data and sends the third collision warning data to the equipment management system.

The cloud storage unit file ID is an address of a storage unit file for storing collision data in a cloud storage of the driving recorder; the cloud storage file name is a folder name of the automobile data recorder cloud storage video image.

After the automobile data recorder is stored, whether the data in the video set and/or the image set need to be uploaded or not is judged according to the uploading preset condition, if the data do not need to be uploaded, the automobile data recorder packages the time and the position of the collision warning data, and the packaged data are sent to the equipment management system.

And if the data is successfully uploaded, the automobile data recorder packages the time and the position of the alarm data, the file ID of the cloud storage unit and the name of the cloud storage file and sends the time and the position of the alarm data, the file ID of the cloud storage unit and the name of the cloud storage file to an equipment management system. And if the uploading is successful, the automobile data recorder packages the time and the position of the collision warning data, the uploading-failure identification and the video image file name of the automobile data cloud storage server or the uploading-failure identification, and sends the packaged data to the equipment management system.

Further, the method further comprises: the automobile data recorder sends the address information of the collision information stored in the automobile data recorder or the cloud server to the user terminal or the third-party client, wherein the collision information comprises: video collections and/or image collections before and after a collision.

The address information of the collision information stored in the automobile data recorder or the cloud server is packaged and sent to the user terminal or the third-party client, and the user terminal and the third-party client can quickly find the stored collision information according to the address information, so that convenient service is provided for subsequent rescue and accident analysis.

Further, the method further comprises: and the equipment management system acquires a video set and/or an image set according to the first collision warning data, the second collision warning data and/or the third collision warning data to analyze the collision event.

The automobile data recorder marks the first collision warning data, the second collision warning data and the third collision warning data as the same event, and the equipment management system can acquire a video set and/or an image set according to any one acquired collision warning data to analyze the collision event; the efficiency of resource sharing, rescue service and later accident analysis of collision information is improved.

Further, the method further comprises: and the equipment management system sends the first collision warning data, the second collision warning data and/or the third collision warning data to the rescue system for warning.

The equipment management system is in butt joint with other rescue systems such as a road rescue system or a public security department rescue system, carries out instant communication, can report vehicle collision warning information in real time, provides data basis for other rescue systems such as the road rescue system and the public security department, and carries out rescue in time.

The driving collision processing method provided by the embodiment of the invention can collect videos and images before and after collision, store the videos and images locally for a long time, upload cloud storage, realize resource sharing, provide data basis for rescue departments and implement rescue in time.

Example four

The embodiment of the invention is optimized on the basis of the embodiment, and the driving collision processing method is exemplified. Fig. 4 is a schematic flow chart of a driving collision processing method according to a fourth embodiment of the present invention. As shown in fig. 4, after the vehicle collides and the collision sensor detects the collision information, the collision processing is performed as follows:

step 401, a vehicle event data recorder installed in a vehicle acquires collision information.

Step 402, the processor judges whether the collision information meets the alarm triggering condition, and if so, first collision alarm data is generated. After the first collision warning data is generated, the process goes to step 403 and step 412 simultaneously, and the corresponding operation is performed.

The collision sensor sends the acquired collision information to the processor for processing, whether the collision information meets the alarm triggering condition or not is judged, and if yes, first collision alarm data are generated.

In step 403, the processor immediately sends an immediate collision warning data D1 to the device management system.

The processor instantly sends an instant collision warning data D1 to the device management system through the communication module.

Step 404, the device management system sends the received instant collision warning data D1 to the device management module and the database module.

The data acquisition module of the equipment management system receives the instant collision warning data sent by the automobile data recorder and sends the data to the data analysis module, and the data analysis module carries out protocol analysis on the instant collision warning data D1 and sends the data to the equipment management module and the database module after analysis processing.

Step 405, judging whether to start the short message notification and the APP message notification according to preset conditions. If the short message notification or the APP information notification is started, go to step 406; otherwise, the processing mode of the instant collision warning data D1 is ended, and the process goes to step 412.

Step 406, if at least one is opened, the data is forwarded to the short message interface module for data protocol encapsulation. Skipping the steps according to different selected collision processing modes, if the APP message notification is started, turning to step 407; if the short message notification is turned on, go to step 409.

Step 407, if the APP message notification is started, the short message interface module pushes the encapsulated data to the APP of the client.

And step 408, the client prompts a user collision warning prompt in an APP message module. Jump to step 424 and execute step 424.

Step 409, if the short message notification is started, the short message interface module sends the encapsulated data to the short message gateway system.

And step 410, the short message network system sends the data to the mobile phone number of the client.

The short message network system receives the encapsulated data sent by the short message interface module of the equipment management system, carries out protocol analysis on the encapsulated data, and sends the analyzed data to the registered mobile phone number of the client through the mobile phone short message.

Step 411, the client side obtains the collision warning prompt according to the short message. Jump to step 424 and execute step 424.

And the client side to which the registered mobile phone number belongs receives the short message notification and acquires a collision warning prompt short message.

Step 412, whether to execute the collision video recording according to the preset condition. Judging by the driving recorder, if the video recording function is started, turning to step 413; if the video recording function is not enabled, go to step 414.

And 413, the camera module starts to record the video, cuts the video and stores the clipped video file.

According to the preset condition of starting collision video recording, the automobile data recorder processor sends a control instruction to the camera module, the camera module starts to record a section of video file, cuts the recorded new video file and the recorded old video file, combines the new collision video file into a new collision video file, and sends the new collision video file into a storage unit of a storage module of the automobile data recorder, wherein the storage unit cannot be automatically deleted in a circulating mode. Jump to step 417 and execute step 417.

And step 414, judging whether to take a picture. If yes, go to step 415; otherwise, go to step 416.

And step 415, taking pictures by the camera module, and capturing and storing the images before and after the collision.

According to the preset condition of starting collision shooting, the automobile data recorder processor sends a control command to the camera module, the camera module continuously shoots N images, then the camera module intercepts N frames of video data in an old video file before collision as an image before collision, and the N frames of video data and the shot image after collision are combined into an image set with a continuous time interval, the image set is used as an image set for recording the processes before and after collision, and the image set is sent to a storage unit of a storage module of the automobile data recorder, wherein the storage unit cannot be automatically deleted in a circulating mode. Jump to step 417 and execute step 417.

And step 416, packaging the time stamp and the position information of the instant warning data D1 into collision processing data D2 by the automobile data recorder, and sending the collision processing data D2 to the equipment management system. Jump to step 422 and execute step 422.

And step 417, judging whether to upload the automobile data recorder cloud storage server. Judging by the driving recorder, if uploading, turning to step 418; otherwise, go to step 421.

And 418, uploading the collision data in the storage module to a vehicle event data recorder cloud storage server.

And the automobile data recorder sends the collision video file or the collision image set in the storage module to an automobile data recorder cloud storage server through a communication module.

Step 419, judging whether the uploading is successful, and if the uploading is successful, turning to step 420; otherwise, go to step 421.

Step 420, the cloud disk server of the automobile data recorder returns the file ID of the cloud storage unit to the automobile data recorder, and a processor of the automobile data recorder packages the timestamp, the position information, the file ID of the cloud storage unit and the file name of the instant alarm data D1 into collision processing data D2. Jump to step 422 and execute step 422.

And step 421, packaging the instant warning data D1 time stamp, the position information, the non-uploading identification and the file name into collision processing data D2 by a processor of the automobile data recorder.

Step 422, the device management system sends the parsed crash processing data D2 to the database module and the device management module. Skipping the steps according to different request information, and turning to the step 423 when the equipment management system sends a request; when the client sends a request, it jumps to step 424.

And a data acquisition module of the equipment management system receives collision processing data D2 sent by the automobile data recorder and sends the collision processing data D2 to a data analysis module, the data analysis module carries out protocol analysis on the collision processing data D2, and the collision processing data D2 is sent to a database module and an equipment management module after being analyzed.

In step 423, the device management module obtains the collision image or video file after collision processing according to the collision warning data D2.

And the equipment management module of the equipment management system sends a request to acquire collision warning information of the database module, and sends a request response to acquire a collision image or video file after collision processing of the automobile data recorder according to the file ID and the file name of the cloud storage unit.

Further, an equipment management module of the equipment management system sends a request to the automobile data recorder cloud storage server to obtain collision images and video file data after collision processing of the automobile data recorder.

Step 424, the client acquires the image or video file of the collision processing according to the collision warning information of the short message or the APP message.

According to the collision warning information of the short message or the APP message, the client can send a request to the automobile data recorder through the APP, and obtain the image or video file of collision processing stored in a storage unit of a storage module of the automobile data recorder, wherein the storage unit cannot be automatically deleted in a circulating mode.

And according to the short message or APP message alarm, the client side can send a request to the automobile data recorder cloud disk server to obtain the image or video file which is uploaded by the automobile data recorder and subjected to collision processing.

Furthermore, the device management system is connected with other rescue systems such as a road rescue system or a public security department rescue system, vehicle collision warning information can be reported immediately, data basis is provided for other rescue systems such as the road rescue system and the public security department, and rescue is carried out in time.

The embodiment of the invention provides a driving collision processing method, solves the problems that important data cannot be stored for a long time and no alarm effect exists because a recording mode is only adopted for driving recording collision, provides an intelligent vehicle networking system for interaction of a vehicle owner, an administrator and an external rescue three party, and provides intellectualization and development of the vehicle networking system.

EXAMPLE five

Fig. 5 is a block diagram of a driving collision processing system according to a fifth embodiment of the present invention. As shown in fig. 5, the system includes: the event data recorder 510 and the device management system 520:

vehicle event data recorder 510 includes: a collision sensor 511 for acquiring collision information; a processor 512, configured to determine whether the collision information meets an alarm triggering condition, and if so, generate first collision alarm data; a communication module 513, configured to send the first collision warning data to the device management system 520; and the equipment management system 520 is used for starting a preset alarm processing program according to the collision alarm data to perform alarm processing.

In the driving collision processing system provided by the embodiment of the present invention, the collision sensor 511 in the driving recorder 510 acquires collision information and transmits the collision information to the processor 512 for judgment, when an alarm triggering condition is met, alarm data is acquired, the communication module 513 transmits the alarm data to the device management system 520, and the device management system 520 performs alarm processing according to the alarm data. The collision processing system provided by the embodiment of the invention can send out the alarm information in time, strive for precious time for accident rescue, and can effectively reduce the damage caused by driving collision.

Further, processor 512 is further configured to: the automobile data recorder 510 obtains a collision strength value according to the collision information, determines whether the collision strength value meets a collision warning threshold, and obtains first collision warning data when the collision strength value is greater than the collision warning threshold.

Further, the device management system 520 is further configured to: receiving first collision warning data, judging according to preset sending conditions of the short message notification, and if the short message notification is started, packaging the first collision warning data and sending the first collision warning data to a user terminal in a short message mode for warning; and/or receiving the first collision warning data, judging according to preset sending conditions notified by the third-party client, and if the third-party client notification is started, packaging the first collision warning data and pushing the first collision warning data to the third-party client for warning.

Further, processor 512 is further configured to: judging whether collision video recording and/or photographing is executed, and if the collision video recording and/or photographing is executed, sending a control instruction to a video recording and/or photographing module; the automobile data recorder 510 further includes: the video recording and/or photographing module is used for receiving the control instruction sent by the processor 512 and executing corresponding video recording and/or photographing operation; correspondingly, the processor 512 is further configured to obtain a video set and/or an image set before and after the collision, form a video image file, store the video image file in the memory, and package the time, the location, and the storage file name of the first collision warning data as second collision warning data; a communication module 513, configured to send the second collision warning data to the device management system 520.

Further, processor 512 is further configured to: judging whether the video collection and/or the image collection are uploaded to a cloud storage, if so, uploading the video collection and/or the image collection cloud storage, and packaging the time and the position of the first collision warning data, the file ID of the cloud storage unit and the name of the cloud storage file into third collision warning data; accordingly, the communication module 513 is configured to send the third collision warning data to the equipment management system 520.

Further, processor 512 is further configured to: sending address information of collision information stored in a vehicle data recorder or a cloud server to a user terminal or a third-party client, wherein the collision information comprises: video collections and/or image collections before and after a collision.

Further, the device management system 520 is further configured to: and acquiring a video set and/or an image set according to the first collision warning data, the second collision warning data and/or the third collision warning data, and analyzing the collision event.

Further, the device management system 520 is further configured to: and sending the first collision warning data, the second collision warning data and/or the third collision warning data to a rescue system for warning.

The driving collision processing system provided by the embodiment of the invention and the driving collision processing method provided by any embodiment of the invention belong to the same inventive concept, and can execute the driving collision processing method provided by any embodiment of the invention, and have corresponding functions and beneficial effects. For details of the driving collision processing method provided in any embodiment of the present invention, reference may be made to the following description.

EXAMPLE six

The present embodiment exemplifies a driving collision processing system based on any of the above method embodiments. Fig. 6 is a block diagram of a driving collision processing system according to a sixth embodiment of the present invention, and as shown in fig. 6, the system includes: the system comprises a client 610, a vehicle event data recorder 620, a vehicle event data recorder cloud storage server 630, a device management system 640 and a short message gateway system 650.

Wherein, the device management system 640 is connected with at least one client 610 in communication and at least one automobile data recorder 620 in communication.

The client 610 includes: an APP module 611 and a short message module 612; the event data recorder 620 includes: WIFI module 621, communications module 622, processor 623, impact sensor 624, storage module 625, and camera module 626; the device management system 640 includes: the device comprises a data acquisition module 641, a data analysis module 642, a database module 643, a device management module 644 and a short message interface module 645.

Tachograph 620 obtains crash information via crash sensors 624 and sends crash events to processor 623; the processor 623 processes the collision event and forwards collision warning data, and sends the collision event and the collision warning data to the device management system 640 and the automobile data recorder cloud storage server 630 through the communication module 622, where the communication module 622 may be a mobile network module, and includes: CDMA, GSM, WCDMA, TDSCDMA, TD-LTE, and FDD-LTE; the processor sends a control instruction to the camera module 626, the camera module 626 receives the broadcast event of the processor 623 to take a picture or record a video of the collision event, and sends the image and the video file to the storage module 625 for storage, and the storage module 625 receives the request of the processor 623 and then transmits the data; the WIFI module 621 is configured to send and receive a request response of the client 610 to perform real-time communication with the automobile data recorder 620.

The client 610 is mainly used for receiving collision warning information, data information such as images or video files after collision warning processing and the like, and sending and receiving the information; the client 610 also receives and sends data using the APP module 611; the APP module 611 receives the collision warning information pushed by the device management system 640 in a wide area network manner, and the APP module 611 sends and receives data information such as an image or video file after collision warning processing of the automobile data recorder 620 in a local area network manner; optionally, the client 610 sends and receives data of the driving record cloud storage server 630 through a wide area network, and receives collision warning information sent by the short message gateway system 660 through the short message module 612.

The automobile data recorder cloud storage server 630 is used for storing data such as images or video files which are uploaded by the automobile data recorder 620 and are subjected to collision warning processing; the data of the automobile data recorder cloud storage server 630 can be acquired by an end user and an administrator in a network mode. The acquisition module 641 receives collision warning data sent by the automobile data recorder 620; the data analysis module 642 receives the data from the acquisition module 641, analyzes the data protocol, stores the analyzed data in the database module 643, and sends the analyzed collision warning data to the equipment management module 644 in time for data processing; the database module 643 is used for storing data and sending and receiving request responses of the device management module 644; the device management module 644 is configured to process collision warning data and collision processing data, and send the data to the short message interface module 645 and the database module 643, where the device management module 644 is capable of sending and receiving a request response of an administrator; the short message interface module 645 receives the data sent by the device management module 645, performs interface protocol encapsulation, and sends the encapsulated data to the automobile data recorder cloud storage server 630 or other docking vehicle networking systems, such as: the road rescue system or the public security system analyzes the data protocol of other docking systems, and the short message interface module 645 is further configured to send collision warning data to the APP module 612 of the client 610.

The automobile data recorder cloud storage server 630 is connected with a short message interface module 645 of the equipment management system 640, receives an interface instruction sent by the equipment management system 640, and sends collision warning data to the mobile phone number of the terminal user bound to the automobile data recorder 620 in a short message mode.

The driving collision processing system provided by the embodiment of the invention solves the problems that important data cannot be stored for a long time and an alarm effect is not caused because a recording mode is only adopted for driving recording collision, provides an intelligent vehicle networking system for interaction of a vehicle owner, an administrator and an external rescue three party, and provides intellectualization and development of the vehicle networking system.

The driving collision processing system provided by the embodiment of the invention and the driving collision processing method provided by any embodiment of the invention belong to the same inventive concept, and can execute the driving collision processing method provided by any embodiment of the invention, and have corresponding functions and beneficial effects. For details of the driving collision processing method provided in any embodiment of the present invention, reference may be made to the following description.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (5)

1. A driving collision processing method is characterized by comprising the following steps:

acquiring collision information by a vehicle event data recorder installed in a vehicle;

the automobile data recorder judges whether the collision information meets an alarm triggering condition or not, and if yes, first collision alarm data is generated;

judging whether the collision information meets the alarm triggering condition or not by the automobile data recorder, if so, acquiring first collision alarm data and simultaneously or later, further comprising: the automobile data recorder judges whether collision video recording and/or photographing is executed, if so, a control instruction is sent to a video recording and/or photographing module, corresponding video recording and/or photographing operation is executed, a video collection and/or an image collection before and after collision are obtained, a video image file is formed, and the video image file is stored in a storage;

the automobile data recorder packages the time, the position and the storage file name of the first collision warning data into second collision warning data;

the automobile data recorder judges whether the video collection and/or the image collection are uploaded to a cloud storage, if so, the video collection and/or the image collection are uploaded to the cloud storage;

the automobile data recorder packages the time and the position of the first collision warning data, the file ID of the cloud storage unit and the name of the cloud storage file into third collision warning data;

the automobile data recorder sends the first collision warning data, the second collision warning data and the third collision warning data to an equipment management system;

the equipment management system starts a preset alarm processing program according to the collision alarm data to perform alarm processing;

the method for starting the equipment management system to perform alarm processing by a preset alarm processing program according to the collision alarm data comprises the following steps:

the equipment management system receives the first collision warning data, the second collision warning data and the third collision warning data, judges according to a preset sending condition of the short message notification, encapsulates the first collision warning data, the second collision warning data and the third collision warning data if the short message notification is started, and sends the first collision warning data, the second collision warning data and the third collision warning data to a user terminal in a short message mode for warning; and/or

The equipment management system receives the first collision warning data, the second collision warning data and the third collision warning data, judges according to preset sending conditions of third-party client notification, packages the first collision warning data, the second collision warning data and the third collision warning data and pushes the first collision warning data, the second collision warning data and the third collision warning data to a third-party client for warning if the third-party client notification is started,

the preset conditions of the short message notification and the preset conditions of the third-party client notification are set on the third-party client, and the user terminal number can be rebinding or binding a plurality of user terminal numbers of the short message notification;

and the equipment management system also acquires the video set and/or the image set according to the first collision warning data, the second collision warning data and/or the third collision warning data to analyze the collision event.

2. The method according to claim 1, wherein the automobile data recorder judges whether the collision information meets a warning triggering condition, and if so, generates first collision warning data, including:

and the automobile data recorder acquires a collision strength value according to the collision information, judges whether the collision strength value meets a collision warning threshold value, and acquires first collision warning data when the collision strength value is greater than the collision warning threshold value.

3. The method of claim 1, further comprising:

the automobile data recorder sends address information of collision information stored in the automobile data recorder or the cloud server to a user terminal or a third-party client, wherein the collision information comprises: a video collection and/or an image collection before and after the collision.

4. The method of claim 1, further comprising:

and the equipment management system sends the first collision warning data, the second collision warning data and/or the third collision warning data to a rescue system for warning.

5. A driving collision processing system is characterized by comprising a driving recorder and an equipment management system:

the vehicle event data recorder includes:

a collision sensor for acquiring collision information;

the processor is used for judging whether the collision information meets an alarm triggering condition or not, and if so, generating first collision alarm data;

the processor is also used for judging whether collision video recording and/or photographing is executed, if so, sending a control instruction to the video recording and/or photographing module, executing corresponding video recording and/or photographing operation, acquiring a video collection and/or an image collection before and after collision, forming a video image file and storing the video image file in the memory;

the automobile data recorder packages the time, the position and the storage file name of the first collision warning data into second collision warning data;

the processor is further used for judging whether to upload the video collection and/or the image collection to a cloud storage, and if so, uploading the video collection and/or the image collection to the cloud storage;

the automobile data recorder packages the time and the position of the first collision warning data, the file ID of the cloud storage unit and the name of the cloud storage file into third collision warning data;

the communication module is used for sending the first collision warning data, the second collision warning data and the third collision warning data to an equipment management system;

the equipment management system is used for starting a preset alarm processing program according to the collision alarm data to carry out alarm processing,

the device management system is further configured to:

receiving the first collision warning data, the second collision warning data and the third collision warning data, judging according to a preset sending condition of a short message notification, if the short message notification is started, packaging the first collision warning data, the second collision warning data and the third collision warning data, and sending the first collision warning data, the second collision warning data and the third collision warning data to a user terminal in a short message mode for warning; and/or

Receiving the first collision warning data, the second collision warning data and the third collision warning data, judging according to preset sending conditions of third-party client notification, if the third-party client notification is started, packaging the first collision warning data, the second collision warning data and the third collision warning data, and pushing the first collision warning data, the second collision warning data and the third collision warning data to a third-party client for warning,

the preset conditions of the short message notification and the preset conditions of the third-party client notification are set on the third-party client, and the user terminal number can be rebinding or binding a plurality of user terminal numbers of the short message notification;

and the equipment management system also acquires the video set and/or the image set according to the first collision warning data, the second collision warning data and/or the third collision warning data to analyze the collision event.

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