TWM600261U - Driving record system and event image analysis recording device - Google Patents

Abstract

A driving record system and an image analysis recording device are provided in the present disclosure. The driving record system includes an event image capturing device and an image analysis and recording device. When the sensing module of the image analysis and recording device detects a first driving event, the processing module captures an image information between a predetermined time interval. When a communication module of the image analysis recording device communicates with a server, the image analysis recording device transmits the first driving event image information to the server through the communication module, and the first driving event image information is also stored in the storage module.

Description

Driving event recording system and event image analysis recording device

The creation relates to a driving event recording system and an event image analysis and recording device, in particular to a driving event recording system and an event image analysis and recording device for recording image information according to a driving event.

Although a general driving recorder can record images during driving, it cannot properly record driving incidents that occur when the user is driving.

Therefore, how to provide a driving event recording system and an event image analysis and recording device for recording image information according to driving events has become one of the important issues to be solved by this business.

The technical problem to be solved by this creation is to provide a driving incident recording system for the shortcomings of the existing technology. The driving event recording system is arranged in a mobile vehicle. The driving event recording system includes an image capturing device that continuously captures image information of a row of vehicles; and an event image analysis and recording device connected to the image capturing device to receive the driving image information, wherein the event image analysis record The device includes: a processing module; a sensing module electrically connected to the processing module; a storage module electrically connected to the processing module, and the driving image information is stored in the storage module A communication module electrically connected to the processing module; and a connection module electrically connected to the processing module; wherein, when the sensing module of the event image analysis and recording device detects When a first traffic event occurs, the processing module captures the image information of a predetermined time interval before and after the trigger time of the traffic event occurring in the traffic event, and stores it as a first traffic event image information; Wherein, when the communication module of the event image analysis and recording device is communicatively connected to a server, the event image analysis and recording device transmits the first driving event image information to the server through the communication module The image information of the first driving event is also stored in the storage module.

In order to solve the above technical problems, one of the technical solutions adopted in this creation is to provide an event image analysis and recording device. The event image analysis and recording device is connected to an image capture device to receive the image information of a row of vehicles captured by the image capture device. The event image analysis and recording device includes a processing module; a sensing module electrically connected to the processing module; a storage module electrically connected to the processing module, and the driving image information is stored in the storage In the module; a communication module electrically connected to the processing module; and a connection module electrically connected to the processing module; wherein, when the sensing module of the event image analysis and recording device When detecting the occurrence of a first driving event, the processing module captures image information of a predetermined time interval before and after the triggering time of the driving event occurring in the driving event, and stores it as a first driving event Image information; wherein, when the communication module of the event image analysis and recording device is communicatively connected to a server, the event image analysis and recording device transmits the first driving event image information through the communication module In the server, the image information of the first driving event is also stored in the storage module.

One of the beneficial effects of this creation is that the driving event recording system and event image analysis recording device provided by this creation can capture image information according to the trigger time of the driving event. Effectively reduce the time and cost for users to search for image information of driving events.

In order to have a better understanding of the features and technical content of this creation, please refer to the following detailed descriptions and drawings about this creation. However, the provided drawings are only for reference and explanation, not to limit this creation.

The following is a specific embodiment to illustrate the implementation of the "driving incident recording system and event image analysis and recording device" disclosed in this creation. Those skilled in the art can understand the advantages and effects of this creation from the content disclosed in this specification. This creation can be implemented or applied through other different specific embodiments, and various details in this specification can also be modified and changed based on different viewpoints and applications without departing from the concept of this creation. In addition, the drawings in this creation are merely schematic illustrations, and are not depicted in actual size, and are stated in advance. The following embodiments will further describe the related technical content of this creation in detail, but the disclosed content is not intended to limit the protection scope of this creation. In addition, the term "or" used in this document may include any one or a combination of more of the associated listed items depending on the actual situation.

[First Embodiment]

Refer to Fig. 1, Fig. 2 and Fig. 3, Fig. 1 is a schematic diagram of the driving event recording system according to this creative embodiment. Fig. 2 is a block diagram of the event image analysis and recording device of the authoring embodiment. FIG. 3 is a schematic diagram of the image information of the first driving event captured by the event image analysis and recording device when a first driving event is triggered.

The driving event recording system 1 is set in the mobile vehicle VH. The driving event recording system 1 in this embodiment is used to record various driving events of the mobile vehicle VH when driving.

The driving event recording system 1 includes an image capturing device 11 and an event image analysis recording device 12. The image capturing device 11 continuously captures a row of vehicle image information IMG.

The event image analysis and recording device 12 is connected to the image capture device 11. The event image analysis and recording device 12 is used for receiving the driving image information IMG recorded by the image capturing device 11. The event image analysis and recording device 12 includes a processing module 120, a sensing module 121, a storage module 122, a communication module 123, and a connection module 124. The processing module 120 is electrically connected to the sensing module 121, the storage module 122, the communication module 123 and the connection module 124.

When the sensing module 121 of the event image analysis and recording device 12 detects the occurrence of a first driving event, the processing module 120 captures the first driving event before and after the trigger time T1 of the first driving event. The image information of the predetermined time interval is captured and stored as a first vehicle event image information EV1R. Both the driving image information IMG and the first driving event image information EV1R are stored in the storage module 122. However, the file size of the driving image information IMG is limited. If the size of the driving image information IMG is larger than a predetermined file size, the driving image information IMG will overwrite and delete the original data. However, the image information EV1R of the first traffic event will not be overwritten and deleted due to the file size.

In addition, the processing module 120 of the event image analysis and recording device 12 can also analyze and identify driving incidents on the driving image information IMG continuously recorded by the image capturing device 11, such as traffic jams, car accidents, reverse driving, abnormal road conditions, and drivers. Fatigue driving. That is, in this embodiment, the processing module 120 of the event image analysis and recording device 12 has an artificial intelligence analysis method, and this artificial intelligence analysis method can be achieved by hardware, software, or firmware. In addition, in this embodiment, the event image analysis and recording device can also analyze and record the road quality of the road traveled by the mobile vehicle VH through a sensor module, a sensor device or an artificial intelligence analysis method and record it into driving event image information. Transfer to server 2.

In this embodiment, the image capturing device 11 can be used to capture the driving condition of the mobile vehicle VH and the driver's condition. Among them, the driver's condition includes fatigue, concentration, eating, smoking or using mobile phones.

When the communication module 123 of the event image analysis and recording device 12 is communicatively connected to a server 2, the event image analysis and recording device 12 transmits the first driving event image information to the server 2 through the communication module 123, and the first driving event The image information EV1R cannot be easily deleted or modified. In other embodiments, the driving image information IMG and the first driving event image information EV1R are separately stored in different storage modules for different image processing or encryption processing.

The communication module 123 is a wired communication module or a wireless communication module. When the communication module 123 is a wireless communication module, the communication module 123 can be a Wi-Fi communication unit, a Bluetooth communication unit, a Zigbee communication unit (Zigbee), an RF433 radio frequency communication unit, or a second generation Mobile communication technology communication unit (2G), a third-generation mobile communication technology communication unit (3G), a fourth-generation mobile communication technology communication unit (4G), a fifth-generation mobile communication technology communication unit (5G), a LoRa Communication unit, a Sigfox communication unit or an NB-IoT communication unit. The processing module 120 is a central processing unit (CPU), a microprocessor (Microprocessor), or an application-specific integrated circuit (ASIC). The storage module 122 is a flash memory, a read-only memory, a programmable read-only memory, an electronically rewritable read-only memory, an erasable and programmable read-only memory, or an electronically available Erase programmable read-only memory. The sensing module 121 may include a temperature sensor, a humidity sensor, a brightness sensor, a weight sensor, a force sensor, a blood pressure sensor, a gyroscope sensor, A height sensor, a radio frequency identification information sensor (Radio Frequency Identification, RFID), or a heart rhythm sensor. In this embodiment, the connection module 124 is a type C USB port, a type A USB port, a micro-USB port, a high definition multimedia interface (HDMI) or A VGA port (Video Graphics Array).

The event image analysis and recording device 12 is connected to a trip computer VHC, and the trip computer VHC is set in the mobile vehicle VH.

When the trip computer VHC detects that a second trip event occurs, the trip computer VHC provides a trip event trigger signal to the event image analysis and recording device 12. The processing module 120 of the event image analysis and recording device 12 captures the image information of the predetermined time interval before and after the second vehicle event trigger time in the IMG according to a second vehicle event trigger time of the vehicle event trigger signal, and stores Image information for a second traffic event. In this embodiment, the second driving event may be an abnormal state of the vehicle body or an abnormal state of driving behavior.

The event image analysis and recording device 12 can also be connected to a sensing device 17. That is to connect a special purpose sensing device. The sensing device 17 is provided in the mobile vehicle VH. The sensing device 17 may be a gas detection device that detects air components in the mobile vehicle VH, such as carbon dioxide or other harmful substances. The sensing device 17 can be a safety signal sending device (eCall), a gyroscope signal detecting device or a gas detecting device.

When the sensing device 17 detects that a third driving event occurs, the sensing device 17 provides a sensing event trigger signal to the event image analysis and recording device 12, and the processing module 120 of the event image analysis and recording device 12 responds to the sensing event A sensing event trigger time of the trigger signal is captured, and image information of a predetermined time interval before and after the sensing event trigger time in the IMG is captured in the driving image information, and stored as a third driving event image information.

That is, the event image analysis and recording device 12 of this embodiment can not only determine whether a driving event has occurred based on its own sensing module 121, but also can trigger a signal based on the driving event sent by the driving computer VHC or the sensing device 17. , Confirm the time of the driving incident.

Furthermore, the processing module 120 of the event image analysis and recording device 12 captures the image information of the predetermined time interval ΔT in the driving image information IMG before and after the driving event trigger time according to the driving event trigger time of a driving event. That is, the processing module 120 captures the image information from a predetermined time interval ΔT before the triggering time of the driving event to a predetermined time interval ΔT after the triggering time of the driving event, and stores the image information for each driving event Video information of driving events.

However, the length of the time interval for capturing the predetermined time interval ΔT can be fixed or adjusted according to the condition of the driving event. Generally speaking, the acquisition predetermined time interval ΔT can be set to a fixed time length, such as 10 seconds. That is, when a driving event occurs, such as a collision, the processing module 120 of the event image analysis and recording device 12 will capture the driving image information IMG according to the trigger time of the driving event detected by the sensing module 121 The image information of the time interval from a predetermined time interval ΔT before the event trigger time to the time interval after the predetermined time interval ΔT is acquired after the driving event trigger time is stored as the driving event image information.

Furthermore, capturing the predetermined time interval ΔT can also be adjusted according to the driving event. When the sensing module 121 of the event image analysis and recording device 12, the trip computer VHC, or the sensing device 17 detects that the detection signal of the trip event is large or varied, it can send different levels of trip event trigger signals. To the processing module 120 of the event image analysis recording device 12. The processing module 120 increases or decreases the predetermined time interval ΔT for capturing according to different levels of driving event trigger signals.

According to the above description, the event image analysis and recording device 12 of this embodiment can separately record the driving event image information of multiple driving events. And send the driving event image information of multiple driving events to the server 2.

Please refer to FIG. 4, which is a schematic diagram of a first comprehensive driving event image information captured by the event image analysis and recording device.

The event image analysis and recording device 12 can also integrate multiple driving events that are close in time to the trigger time of the driving event.

When the sensing module 121 of the event image analysis and recording device 12 detects the occurrence of a fourth driving event, the processing module 120 will capture a fourth driving event occurring before and after the fourth driving event trigger time T4. The image information of the predetermined time interval ΔT is stored as a fourth vehicle event image information EV4R.

When the first driving event trigger time T1 and the fourth driving event triggering time T4 of the fourth driving event are less than a predetermined time interval, the processing module 120 converts the first driving event image information of the first driving event And the fourth driving event image information EV4R of the fourth driving event is combined into a first comprehensive driving event image information, and the first comprehensive driving event image information MEV1R is sent to the server 2. The predetermined time interval can be 2 seconds or 5 seconds.

The first driving event image information EV1R and the fourth driving event image information EV4R in the first comprehensive driving event image information MEV1R are arranged according to a first image template. That is, the first vehicle event image information EV1R of the first vehicle event and the fourth vehicle event image information of the fourth vehicle event are simultaneously aligned. In this embodiment, the first image template may be side by side, side by side, side by side, or picture-in-picture.

Since the second integrated driving event image information has a longer time interval, the processing module 120 combines the first driving event image information EV1R of the first driving event and the fourth driving event image information EV4R of the fourth driving event. And the image information between the two driving events is captured together.

Please refer to FIG. 5. FIG. 5 is a schematic diagram of a second integrated driving event image information captured by the event image analysis and recording device.

In another case, when the sensing module 121 of the event image analysis and recording device 12 detects that a fourth traffic event occurs, and the first traffic event trigger time T1 is earlier than the fourth traffic event trigger time T4, processing The module 120 captures the driving image information IMG according to the first driving event trigger time T1 of the first driving event and a fourth driving event trigger time T4 of the fourth driving event. The processing module 120 retrieves from the driving image information IMG a first time capturing point T1-ΔT in the predetermined time interval ΔT before the first driving event trigger time T1 to the fourth time after the fourth driving event trigger time T4 The image information between a second time capture point T4+ΔT in the predetermined time interval ΔT is taken and stored as a second comprehensive driving event image information MEV2R. And the other time point T1-ΔT of the first driving event trigger time T1 to capture the predetermined time interval ΔT and the other time point T4+ΔT of the fourth driving event trigger time T4 to capture the predetermined time interval ΔT are not done. deal with.

In addition to the occurrence of multiple driving events detected by the sensing module 121 of the event image analysis and recording device 12, the event image analysis and recording device 12 integrates the driving event image information of multiple driving events with similar time. The analysis and recording device 12 can also integrate the driving events according to the driving event trigger signal provided by the driving computer VHC and the sensing device 17.

The driving event recording system 1 may also include a plurality of image capturing devices to capture image information of the moving vehicle VH in different directions. The event image analysis and recording device 12 can combine image information recorded by different image capturing devices when the same driving event occurs.

[Second Embodiment]

Please refer to FIG. 6. FIG. 6 is a schematic diagram of a communication connection between multiple driving record systems and a server according to the second embodiment of the invention.

In this embodiment, the first traffic event recording system VER1, the second traffic event recording system VER2, the third traffic event recording system VER3, the fourth traffic event recording system VER4, the fifth traffic event recording system VER5, and the sixth traffic event recording system Event logging VER6 is performed separately with server 2. The first driving event recording system VER1 includes a first image capturing device VER1-1 and a first event image analyzing and recording device VER1-2. The second driving event recording system VER2 includes a second image capturing device VER2-1 and a second event image analysis recording device VER2-2. The third driving event recording system VER3 includes a third image capturing device VER3-1 and a third event image analyzing and recording device VER3-2. The fourth driving event recording system VER4 includes a fourth image capturing device VER4-1 and a fourth event image analysis recording device VER4-2. The fifth traffic event recording system VER5 includes a fifth image capture device VER5-1 and a fifth event image analysis and recording device VER5-2. The sixth traffic event record VER6 includes a sixth image capturing device VER6-1 and a sixth event image analysis and recording device VER6-2. In this embodiment, each image capture device and each event image analysis and recording device have the same function and structure as the image capture device 11 and event image analysis and recording device 12 in the first embodiment, and will not be repeated here. .

The first traffic event recording system VER1, the second traffic event recording system VER2, the third traffic event recording system VER3, the fourth traffic event recording system VER4, the fifth traffic event recording system VER5, and the sixth traffic event recording system VER6 are respectively set in On the first mobile vehicle VH1, the second mobile vehicle VH2, the third mobile vehicle VH3, the fourth mobile vehicle VH4, the fifth mobile vehicle VH5, and the sixth mobile vehicle VH6.

The first mobile vehicle VH1 and the second mobile vehicle VH2 are traveling in the first area A1. The third mobile vehicle VH3 and the fourth mobile vehicle VH4 are traveling in the second area A2. The fifth mobile vehicle VH5 and the sixth mobile vehicle VH6 travel in the third area A3. The first area A1, the second area A2, and the third area A3 are respectively different areas in the geographic area.

Server 2 can communicate with the news database (not shown in the figure) or the real-time traffic status database (not shown in the figure) through the Internet to obtain the latest traffic conditions in each area. The server 2 may first obtain the location information sent by the driving event recording system on each mobile vehicle. For example, the first mobile vehicle VH1 and the second mobile vehicle VH2 are in the first area A1. The server 2 obtains news or real-time traffic conditions in the first area A1, and transmits image capture request signals to the first mobile vehicle VH1 and the second mobile vehicle VH2 located in the first area A1. Upon receiving the image capture request signal from the server 2, the first mobile vehicle VH1 and the second mobile vehicle VH2 record a requested driving event image information according to the aforementioned method, and send it back to the server 2.

Furthermore, when the first driving event recording system VER1, the second driving event recording system VER2, the third driving event recording system VER3, the fourth driving event recording system VER4, the fifth driving event recording system VER5, or the sixth driving event When the recorded processing module (not shown in the figure) detects abnormal road conditions, such as car accidents, traffic jams, and road quality, it will automatically record the image information of the driving event, and record the current location information of the mobile vehicles VH1-VH6, and Send the driving event image information and location information to the server 2. Based on the received image information and location information of the driving event, the server 2 will send a driving event warning message to other mobile vehicles to notify another event image analysis and recording device, so that the driver of the mobile vehicle can pay attention to or change the driving. route.

[Beneficial effects of the embodiment]

One of the beneficial effects of this creation is that the driving event recording system and event image analysis recording device provided by this creation can capture image information according to the trigger time of the driving event. Effectively reduce the time and cost for users to search for image information of driving events.

The content disclosed above is only a preferred and feasible embodiment of the creation, and does not limit the scope of the patent application for this creation. Therefore, all equivalent technical changes made using the creation specification and schematic content are included in the application for this creation. Within the scope of the patent.

1: Driving incident recording system 2: server 11: Image capture device 12: Event image analysis and recording device 17: sensing device VH: mobile vehicle VHC: Trip Computer 120: Processing module 121: Sensing module 122: storage module 123: Communication module 124: Connection module T1: Trigger time of the first car event ΔT: capture a predetermined time interval T4: trigger time of the fourth car event IMG: Driving Video Information EV1R: Video information of the first car event EV4R: The fourth car event image information MEV1R: The first comprehensive driving event video information MEV2R: Second Comprehensive Driving Event Video Information T1-ΔT: the first time capture point T1+ΔT, T4-ΔT: time point T4＋ΔT: second time capture point A1: The first area A2: The second area A3: The third area VER1: The first vehicle incident recording system VER2: The second driving event recording system VER3: The third traffic event recording system VER4: The fourth traffic event recording system VER5: Fifth Lane Event Recording System VER6: The sixth car incident recording system VH1: The first mobile vehicle VH2: The second mobile vehicle VH3: The third mobile vehicle VH4: Fourth mobile vehicle VH5: Fifth Mobile Vehicle VH6: The sixth mobile vehicle VER1-1: The first image capture device VER1-2: The first event image analysis and recording device VER2-1: The second image capture device VER2-2: The second event image analysis and recording device VER3-1: The third image capture device VER3-2: The third event image analysis and recording device VER4-1: The fourth image capture device VER4-2: The fourth event image analysis and recording device VER5-1: Fifth image capture device VER5-2: The fifth event image analysis and recording device VER6-1: The sixth image capture device VER6-2: The sixth event image analysis and recording device

Fig. 1 is a schematic diagram of the driving incident recording system of the first embodiment of the present creation.

Fig. 2 is a block diagram of the event image analysis and recording device according to the first embodiment of the creation.

FIG. 3 is a schematic diagram of the image information of the first driving event captured by the event image analysis and recording device when a first driving event is triggered.

4 is a schematic diagram of a first comprehensive driving event image information captured by the event image analysis and recording device.

FIG. 5 is a schematic diagram of a second comprehensive driving event image information captured by the event image analysis and recording device.

Fig. 6 is a schematic diagram of a communication connection between multiple driving event recording systems and a server according to the second embodiment of the creation.

1: Driving incident recording system

2: server

11: Image capture device

12: Event image analysis and recording device

17: sensing device

VH: mobile vehicle

VHC: Trip Computer

Claims (12)

A driving event recording system. The driving event recording system is set in a mobile vehicle and includes: an image capture device that continuously captures image information of a row of vehicles; and an event image analysis and recording device connected to the image capture driving image information apparatus, said receiving, wherein said image analysis event recording apparatus comprising: a processing module; a sensing module, electrically connected to the processing module; a storage module, electrically connected to the A processing module, the driving image information is stored in the storage module; a communication module, which is electrically connected to the processing module; and a connection module, which is electrically connected to the processing module; When the sensing module of the event image analysis and recording device detects the occurrence of a first driving event, the processing module captures the first and last time before and after the triggering time of the driving event occurring in the driving event. The image information of the time interval is stored as a first driving event image information; wherein, when the communication module of the event image analysis and recording device is in communication with a server, the event image analysis and recording device passes through the The communication module transmits the first driving event image information to the server, and the first driving event image information is also stored in the storage module. The driving event recording system according to claim 1, wherein the event image analysis and recording device is connected to a trip computer, the trip computer is set in the mobile vehicle, and when the trip computer detects a second When a driving event occurs, the driving computer provides a driving event trigger signal to the event image analysis and recording device, and the processing module of the event image analysis and recording device is based on the driving event trigger time of the driving event trigger signal , Capturing the image information of the predetermined time interval before and after the triggering time of the driving event in the driving image information, and storing it as a second driving event image information. The driving event recording system of claim 2, wherein the event image analysis and recording device is connected to a sensing device, and the sensing device is arranged in the mobile vehicle, and when the sensing device detects When a third driving event occurs, the sensing device provides a sensing event trigger signal to the event image analysis and recording device, and the processing module of the event image analysis and recording device triggers the signal according to the sensing event A sensing event trigger time in the driving image information, the image information of the predetermined time interval before and after the sensing event trigger time in the driving image information is captured, and the image information is stored as a third driving event image information. The driving event recording system of claim 3, wherein, when the sensing module of the event image analysis and recording device detects that a fourth driving event occurs, the processing module captures the driving Before and after the trigger time of a fourth driving event when the event occurs, the image information of the predetermined time interval is captured and stored as a fourth driving event image information, when the first driving event trigger time and the fourth driving event When the trigger time of a fourth driving event is less than a predetermined time interval value, the processing module combines the first driving event image information of the first driving event and the fourth driving event into A first comprehensive driving event image information, and sending the first comprehensive driving event image information to the server. The driving event recording system according to claim 3, wherein when the sensing module of the event image analysis and recording device detects that a fourth driving event occurs, and the first driving event trigger time Earlier than the fourth driving event trigger time, the processing module will be based on the first driving event trigger time of the first driving event and a fourth driving event trigger time of the fourth driving event The driving image information is captured, and the processing module extracts from the driving image information a first time capturing point in the capturing predetermined time interval before the triggering time of the first driving event to all The image information between a second time capturing point of the capturing predetermined time interval after the fourth driving event trigger time is stored as a second comprehensive driving event image information. The driving event recording system according to claim 5, wherein the first driving event image information and the fourth driving event image information in the first comprehensive driving event image information are based on a first image template Arrange. The driving event recording system of claim 1, wherein the sensing device is a safety signal transmitting device, a gyroscope signal detecting device, or a gas detecting device. The driving event recording system according to claim 1, wherein the predetermined time interval for capturing is variable. The driving event recording system of claim 1, wherein the connection module is a type C USB port, a type A USB port, a micro-USB port, a high-definition multimedia interface port or It is a VGA port. An event image analysis and recording device connected to an image capture device to receive the image information of a row of vehicles captured by the image capture device. The event image analysis and recording device includes: A processing module; A sensing module electrically connected to the processing module; A storage module electrically connected to the processing module, and the driving image information is stored in the storage module; A communication module electrically connected to the processing module; and A connection module electrically connected to the processing module; Wherein, when the sensing module of the event image analysis and recording device detects the occurrence of a first driving event, the processing module captures the first and last of the trigger time of the driving event when the driving event occurs Capture the image information of a predetermined time interval and save it as a first traffic event image information; Wherein, when the communication module of the event image analysis and recording device is communicatively connected to a server, the event image analysis and recording device transmits the first driving event image information to the server through the communication module The image information of the first driving event is also stored in the storage module. An event image analysis and recording device connected to an image capture device to receive the image information of a row of vehicles captured by the image capture device. The event image analysis and recording device includes: A processing module; A sensing module electrically connected to the processing module; A storage module electrically connected to the processing module, and the driving image information is stored in the storage module; A communication module electrically connected to the processing module; and A connection module electrically connected to the processing module; Wherein, when the processing module of the event image analysis and recording device detects that a first driving event occurs, the processing module captures the previous and next captures of the trigger time of the driving event that occurred in the driving event Fetch the image information of the predetermined time interval, and save it as the image information of the first traffic event; Wherein, when the communication module of the event image analysis and recording device is communicatively connected to a server, the event image analysis and recording device transmits the first driving event image information to the server through the communication module The image information of the first driving event is also stored in the storage module; Wherein, the first driving event image information is transmitted to the server through the communication module, and the server sends a notification signal to another event image analysis record according to the first driving event image information Device. The event image analysis and recording device according to claim 11, wherein the server sends an image capture request signal to the event image analysis and recording device, so that the event image analysis and recording device captures a driving event request Image information, and send the requested driving event image information to the server.

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