JP5533626B2 - Drive recorder system - Google Patents

Description

The present invention relates to a drive recorder system to collect information recorded in the drive recorder device mounted on the vehicle.

  Conventionally, as in the technique described in Patent Document 1, for example, a drive recorder device mounted on a vehicle, a fixed device such as a surveillance camera on the road, and an information collecting computer are provided, and video information is obtained from the drive recorder device or the fixed device. Drive recorder systems that collect data are known. In this drive recorder system, when a vehicle equipped with the drive recorder device causes an accident, the drive recorder device mounted on the accident vehicle fixes the video information of the accident and the surrounding vehicles located around the accident vehicle. The wireless call number WCN and a request signal for video information are transmitted to the fixed device by DSRC (narrow area communication). The surrounding vehicle or the fixing device that has received this request signal reads out its own video information and transmits the read video information together with the wireless call number WCN to the accident vehicle through DSRC. The drive recorder device mounted on the accident vehicle stores the received wireless call number WCN and video information, and transfers the recorded wireless call number and the like to the information collecting computer via the communication network. Thereby, when an accident occurs, it becomes possible to collect information useful for grasping the situation of the accident.

JP 2009-20774 A

  However, in the above prior art, the video information transferred from the vehicle drive recorder device mounted on the accident vehicle is video information in which the camera does not accurately capture the accident occurrence situation, the influence of the weather at the time of the accident occurrence, It may be video information that is affected by dirt on the camera lens. Even if such video information is collected, it may not be possible to accurately grasp the situation of the accident.

  Here, it is conceivable to employ a multi-circumference multi-camera as a camera included in the drive recorder device or the fixing device so that the camera can accurately grasp the accident occurrence situation. However, since the all-round multi-camera is expensive, it is difficult to adopt the all-round multi-camera as a camera included in the drive recorder device or the fixed device. Moreover, even if an all-round multi-camera is adopted, there is no change in being affected by the influence of the weather and the contamination of the camera lens at the time of the accident.

The present invention was made in view of the above circumstances, and its object is to provide a drive recorder system capable of traffic accidents to more accurately grasp the traffic accident occurrence in the event of is there.

In order to achieve such an object, in the inventions according to claims 1 and 2 , a drive recorder mounted on a vehicle and a drive recorder including a vehicle management center for collecting data from the drive recorder device via a communication line The drive recorder device includes a vehicle-mounted control device that obtains vehicle position information, obtains internal time information, and detects a location where the vehicle body is impacted, and a vehicle-side wireless communication device that performs wireless communication. The vehicle-mounted control device and the vehicle-side network to which the vehicle-side wireless communication device is connected are mounted on a vehicle, the drive recorder device is also connected to the vehicle-mounted network, and the drive recorder device is connected via the vehicle-mounted network. Vehicle position information, internal time information, and data indicating the location where the vehicle body was impacted Based on whether or not the travel history data includes data indicating the location where the vehicle body was impacted, and the recording processing means for sequentially acquiring the travel history data including the data and recording the data in the data recording unit. The accident occurrence determination processing means for determining whether or not a traffic accident involving the vehicle has occurred, and the traffic accident occurrence time based on the fact that the accident occurrence determination processing means determines that the traffic accident involving the vehicle has occurred. Information, traffic accident occurrence location information, notification processing means for transmitting an accident notification signal for notifying that a traffic accident has occurred, transmitted by the vehicle-side wireless communication device, travel history data recorded in the data recording unit, and Data transmission processing means for transmitting vehicle type specifying data for specifying the vehicle type of the vehicle by the vehicle-side wireless communication device, and the vehicle management center includes an accident notification signal, travel history data The center side communication device for receiving the vehicle identification data and the surrounding vehicles that were located around the traffic accident occurrence location at the time of the traffic accident occurrence based on the fact that the center side communication device received the accident notification signal The travel history data of the surrounding vehicle and the vehicle case specifying data of the surrounding vehicle are collected, and the travel history data and the vehicle case specifying data transmitted from the vehicle-side wireless communication device are collected by the processing of the data transmission processing means. Among the data collected by the data collection processing means and the data collection processing means, at least the traveling history data of the accident vehicle that is the vehicle that transmitted the accident notification signal and the surrounding vehicles that collided with the accident vehicle, and Based on the vehicle type determined from the vehicle type data, a reproduction processing means for reproducing the occurrence of a traffic accident with video is provided.

  In the above configuration as the drive recorder system, the travel history data and the vehicle identification data are collected from the accident vehicle and the surrounding vehicles, and the traffic accident occurrence status is displayed on the video based on the collected travel history data and the vehicle identification data. To reproduce. Therefore, the reproduced video is not affected by the weather at the time of occurrence of the traffic accident or the contamination of the camera lens, unlike the video reproduced by the prior art using the camera image. Since the reproduced image is not affected by the above-described influence, the situation of the accident can be grasped more accurately.

Further, in the invention described in 請 Motomeko 1, reproduce processing means, based on the internal time information contained in the travel history data collected by the data collection processing means, the shock accident vehicle plurality are each If it is determined that multiple accidents have occurred, the time points of the impacts must be matched so that the elapsed time between the impacts of the bodies of the multiple accident vehicles is the same. Reproduce the situation of traffic accidents on video.

There may be a traffic accident in which a plurality of accident vehicles are each impacted once, or there may be a traffic accident in which a plurality of accident vehicles are impacted a plurality of times. In the latter case, depending on the point of time when the impacts are matched, there is a possibility that the actual traffic accident occurrence state cannot be reproduced. Therefore, according to the configuration described in claim 1, to match the time when the elapsed time between the impact vehicle body plurality of accident vehicle receives each receives an impact to match the actual traffic accidents It is possible to reliably reproduce the situation of occurrence.

Further, the invention according to claim 2, further comprising a roadside unit having a counting processing unit for counting a reference time, the drive recorder system, as the vehicle-side wireless communication device performs wireless communication with the roadside device It is mounted on a vehicle equipped with a road-to-vehicle communication device, and the recording processing means records reference time information as travel history data in the data recording unit based on reception of the reference time information by the road-to-vehicle communication device, reproduction processing means, also based on the reference time information as well as the internal time information contained in the travel history data collected by the data collection processing means, we reproduce the occurrence of traffic accidents in the video. Thereby, since it is also based on the reference time information, it is possible to more reliably reproduce the traffic accident occurrence situation.

In the configuration according to claim 1 or 2 , in the invention according to claim 3 , the drive recorder device includes a vehicle control device that performs traveling control of the vehicle, and the vehicle control device is connected to the in-vehicle network. The recording processing means also records the travel control information as travel history data in the data recording unit. As a result, since the travel history data includes trend control information such as brake pedal depression amount information and publicly known ABS operation information in the video that reproduces the situation of occurrence of traffic accidents. It becomes possible to clarify the negligence rate of the driver of the vehicle.

In the configuration according to claim 1 or 2 , the invention according to claim 4 is provided with a roadside device that is installed at an intersection with a traffic light and obtains lighting information of the traffic light, and the drive recorder device includes a vehicle-side wireless communication As a machine, it is mounted on a vehicle equipped with a road-to-vehicle communication device that performs wireless communication with a roadside device, and the recording processing means is based on having received lighting information by the road-to-vehicle communication device as travel history data Lighting information is also recorded in the data recording unit. As a result, the traffic lights information is also included in the video that reproduces the occurrence of the traffic accident, so that even with the above configuration, it is possible to clarify the negligence rate of the driver of the vehicle involved in the traffic accident. Become. Note that the configuration described in claim 4 can be used in combination with the configuration described in claim 3 , and when used together, the negligence rate of the driver of the vehicle involved in the traffic accident is further clarified. To be able to.

Further, in the configuration according to any one of claims 1 to 4 , as in the invention according to claim 5 , the reproduction processing means may reproduce a traffic accident occurrence state by 3D animation. This makes it possible to change the viewpoint for viewing the reproduced video.

  By the way, as a vehicle side radio | wireless communication apparatus, it is possible to employ | adopt a wide area radio | wireless communication module, for example, and to transmit an accident notification signal directly to a vehicle management center. However, in this case, since packet communication with a high usage fee is performed, the cost required to transmit the accident notification signal from the accident vehicle to the vehicle management center is increased. In addition, the number of vehicles equipped with wireless communication devices that use a wide-area wireless line is still small, and the communication environment is being improved. Therefore, there is a high frequency that the accident notification signal cannot be transmitted from the accident vehicle to the vehicle management center.

Therefore, in the configuration according to any one of claims 1 to 5 , as in the invention according to claim 6 , the road recorder connected to the vehicle management center is provided, and the drive recorder device includes a vehicle-side radio communication device. As a vehicle equipped with a vehicle-to-vehicle communication device that performs wireless communication with other vehicles and a road-to-vehicle communication device that performs wireless communication with roadside devices. It is good to transmit to a vehicle management center via a vehicle and a roadside machine.

In the configuration described in claim 6 , the accident notification signal is transmitted from the accident vehicle to the surrounding vehicle by inter-vehicle communication, transmitted from the surrounding vehicle to the roadside device by road-to-vehicle communication, and transmitted from the roadside device to the vehicle management center. Is done. Because there is no packet communication usage fee for road-to-vehicle communication and vehicle-to-vehicle communication, the packet communication usage fee should be kept lower than when an accident notification signal is transmitted from the accident vehicle to the vehicle management center using a wide area wireless link. Will be able to. Further, the frequency of occurrence of no surrounding vehicle being located around the accident vehicle or no roadside machine being installed on the traveling road of the surrounding vehicle is less than the frequency of going out of the radio wave range. Therefore, the frequency at which the accident notification signal cannot be transmitted from the accident vehicle to the vehicle management center is reduced.

In the configuration according to any one of claims 1 to 6 , as in the invention according to claim 7 , the vehicle management center generates a traffic accident based on the accident notification signal received by the center side communication device. It is good to have the report processing means which reports time information and traffic accident occurrence place information to at least any one of the police, a hospital, and a road operator. This facilitates at least one of accident handling by the police, emergency / lifesaving processing by the hospital, road restoration processing by the road operator, prompt guidance processing for lane regulation, and accurate prediction processing for the restoration time. Will be able to.

1 is a schematic diagram showing an example of the overall configuration of an embodiment of a drive recorder system and a drive recorder device according to the present invention. It is a block diagram which shows the structural example about the vehicle carrying the drive recorder apparatus of this Embodiment. It is a block diagram which shows the structural example about the drive recorder apparatus of this Embodiment. It is a block diagram which shows the structural example about the roadside machine which comprises the drive recorder system of this Embodiment. It is a block diagram which shows the structural example about the vehicle management center which comprises the drive recorder system of this Embodiment. It is a flowchart which shows an example of the process sequence about the recording / judgment process performed by the drive recorder apparatus of this Embodiment. It is a flowchart which shows an example of the process sequence about the accident notification signal transmission process performed by the drive recorder apparatus of this Embodiment. It is a flowchart which shows an example of the process sequence about the accident notification signal transmission process performed by the drive recorder apparatus of this Embodiment. It is a flowchart which shows an example of the process sequence about the notified signal transmission process performed by the drive recorder apparatus of this Embodiment. It is a flowchart which shows an example of the process sequence about the search and transmission process performed by the drive recorder apparatus of this Embodiment. It is a flowchart which shows an example of the process sequence about the roadside machine side process performed by the roadside machine which comprises the drive recorder system of this Embodiment. It is a flowchart which shows an example of the process sequence about the center side process performed by the vehicle management center which comprises the drive recorder system of this Embodiment. It is a flowchart which shows an example of the process sequence about the video reproduction process in the center side process performed by the vehicle management center which comprises the drive recorder system of this Embodiment. A transmission mode of the accident notification signal by the wide area wireless communication via the surrounding vehicle from the accident vehicle to the vehicle management center, and a transmission aspect of the notified signal by the wide area wireless communication via the peripheral vehicle from the vehicle management center to the accident vehicle. It is a schematic diagram shown. It is a schematic diagram which shows the transmission aspect (broadcast broadcast) of the accident notification signal by vehicle-to-vehicle communication from an accident vehicle to a surrounding vehicle. It is a schematic diagram which shows the transmission aspect of the accident notification signal by the road-to-vehicle communication via the surrounding vehicle and roadside machine from an accident vehicle to a vehicle management center. It is a schematic diagram which shows the transmission aspect of the notification completion signal by road-to-vehicle communication via the surrounding vehicle from a vehicle management center to an accident vehicle. Regarding an example of a 3D animation in which the accident occurrence situation of a traffic accident caused by two vehicles involved is reproduced, (a) shows the situation before the collision between vehicles, (b) FIG. 2C shows a state at the time of collision, and FIG. 4C shows a state at the time of the second collision with a building caused by a collision between vehicles. It is a schematic diagram which shows the transmission aspect of the reference time information by the road vehicle communication from a roadside machine to a vehicle. It is a figure which shows an example of the travel history data collected from the accident vehicle by the vehicle management center. It is a figure which shows an example of the vehicle case information currently recorded on the vehicle management center.

An embodiment of the drive recorder system according to the present invention will be described with reference to FIGURES 1-21.

  First, an overall configuration including the drive recorder system 1 will be described with reference to FIG. As shown in FIG. 1, the drive recorder system 1 according to the present embodiment includes a drive recorder device 100 (not shown in FIG. 1) mounted on vehicles A11 to A22, a roadside device 200 installed on a road, The vehicle management center 300 receives an accident notification signal for notifying that a traffic accident has occurred from the drive recorder device 100 and collects travel history data from the drive recorder device 100. Further, the vehicle management center 300 is connected to the police station Po, the hospital Ho, the insurance company In, the road operator Ro, and the like, which are wired to the traffic signal Si, via the communication network N provided by the communication operator Co. Yes.

  With such a configuration, when the vehicle management center 300 receives the accident notification signal from the drive recorder device 100, the vehicle management center 300 uses the police station Po, the traffic accident occurrence time information and the traffic accident occurrence location information included in the accident notification signal. By reporting to the hospital Ho and the road operator Ro, the accident processing by the police station Po, the lifesaving / emergency processing by the hospital Ho, the restoration processing of the traffic accident site by the road operator Ro, etc. are being facilitated. In addition, the vehicle management center 300 reproduces a traffic accident occurrence state with a video based on the travel history data collected from the drive recorder device 100, and provides the reproduced video information to the insurance company In, thereby We are trying to clarify the negligence rate.

  Next, with reference to FIG. 2, the structure of the vehicle C carrying the drive recorder device 100 will be described. As shown in FIG. 2, the vehicle C is equipped with a plurality of in-vehicle control devices such as an airbag ECU 131, an ABS ECU 132, a door control ECU 133, an engine ECU 134, a meter ECU 135, a camera ECU 136, a navigation ECU 137, and an air conditioner ECU 138. .

  Of these, the airbag ECU 131 controls the operation of the airbag based on the detection of an impact by an impact sensor (not shown) configured by, for example, an acceleration sensor. In the present embodiment, the impact sensors are installed at four locations, such as the forward left corner of the vehicle body, the forward right corner of the vehicle body, the backward left corner of the vehicle body, and the backward right corner of the vehicle body. Based on the fact that the vehicle body has received an impact, an impact signal indicating that the vehicle body has received an impact is output to the airbag ECU 131. And airbag ECU131 detects the location which the vehicle body received the impact based on which impact signal was input from which impact sensor among the impact sensors installed in 4 locations. If the impact sensors installed at the four locations can quantitatively detect the impact strength, the location of the impact is detected by comparing the impact strength detected by these impact sensors. Can be identified more accurately.

  The ABS ECU 132 controls braking of the vehicle C (that is, controls the operation of the ABS) based on the vehicle speed detected by a vehicle speed sensor (not shown), the brake depression amount detected by a brake stroke sensor (not shown), and the door control ECU 133. Controls the locking and unlocking of the vehicle door. The engine ECU 134 controls the operation of the in-vehicle engine, and the meter ECU 135 controls meter display such as an internal time measured by an in-vehicle clock (not shown). The camera ECU 136 controls an in-vehicle imaging device that images the front of the vehicle C, and the navigation ECU 137 controls the in-vehicle navigation device that detects the position of the vehicle C based on a GPS signal emitted from a GPS satellite and guides it to a destination. To do. By the way, if the quasi-zenith satellite is launched in the future, the navigation ECU 137 can acquire more accurate position information, so that the occurrence of traffic accidents can be more accurately determined only by using travel history data. It can be reproduced. The air conditioner ECU 138 controls an air conditioner that air-conditions the passenger compartment based on the outside temperature and the inside temperature of the vehicle C. The ABS ECU 132 corresponds to the “vehicle control device that performs the traveling control” described in the claims, and the information “actuation” or “− (no operation)” acquired from the ABS ECU 132 corresponds to the traveling control information. To do.

  In addition, the vehicle C performs wireless communication with another vehicle C as a vehicle-side wireless communication device, such as a wide-area wireless communication module 141 that performs wireless communication with the vehicle management center 300. A vehicle-to-vehicle communication device 142 to be performed, a road-to-vehicle communication device 143 to perform wireless communication with the roadside device 200, and the like are mounted.

  In addition, the vehicle C is mounted with an in-vehicle network 150 such as CAN that connects the drive recorder device 100 and the in-vehicle control device and between the drive recorder device 100 and the vehicle-side wireless communication device. Yes.

  Then, the drive recorder device 100 acquires travel history data (hereinafter also referred to as CAN data) from the in-vehicle control device via the in-vehicle network 150. The CAN data is data handled between a plurality of ECUs via the in-vehicle network 150. The CAN data includes vehicle speed information of the vehicle C, braking information of the vehicle C (brake depression amount information and ABS operation information). Etc.), the position information of the vehicle C, the internal time information measured by the on-vehicle clock, the impact location information on the impact of the vehicle body, and the image information captured by the on-vehicle imaging device.

  The configuration and functions of the drive recorder apparatus 100 will be described with reference to FIG. As shown in FIG. 3, the drive recorder device 100 is configured to include a recorder control unit 110 and a data recording unit 120, and the vehicle-mounted control device and the vehicle-side wireless communication device (see FIG. 3 is not shown). The recorder control unit 110 is a computer having a known CPU and a built-in memory, and the CPU executes a recording / determination process (see FIG. 6) by executing a program stored in the built-in memory in advance. Realize various functions such as accident notification signal transmission processing (see FIG. 7), accident notification signal transmission processing (see FIG. 8), notified signal transmission processing (see FIG. 9), search / transmission processing (see FIG. 10), etc. ing. In the following description, for the sake of convenience, the recorder control unit 110 will be described as having an accident occurrence determination unit 111, a recording control unit 113, a notification processing unit 115, and the like. The built-in memory also stores a vehicle type ID for identifying a vehicle (hereinafter also simply referred to as the vehicle) on which the drive recorder device 100 is mounted, and this vehicle type ID is described in the claims. Corresponds to vehicle specific data. The data recording unit 120 is configured by, for example, a hard disk drive device, a flash memory, or the like, and is connected to the recorder control unit 110. The data recording unit 120 corresponds to the data recording unit described in the claims.

  The accident occurrence determination unit 111 determines whether a traffic accident involving the vehicle has occurred based on whether the impact location information is received as travel history data from the airbag ECU 131 via the in-vehicle network 150. To do. Here, the accident occurrence determination unit 111 determines that a traffic accident involving the vehicle has not occurred while the impact location information is not received, while receiving the impact location information, Is determined to have occurred, that is, the vehicle is an accident vehicle.

  In addition, the accident occurrence determination unit 111 is positioned around the traffic accident occurrence location at the traffic accident occurrence time based on whether or not the vehicle-to-vehicle communication device 143 receives an accident notification signal from another vehicle. It is determined whether the vehicle is a nearby vehicle. Here, the accident occurrence determination unit 111 determines that the vehicle is not a surrounding vehicle while the accident notification signal is not received, and determines that the vehicle is a surrounding vehicle when the accident notification signal is received. To do. It should be noted that being located in the vicinity of the traffic accident occurrence place at the time of the traffic accident occurrence means that it is located within a range in which vehicle-to-vehicle communication with the vehicle located at the traffic accident occurrence place is possible. 111 corresponds to the accident occurrence determination processing means described in the claims.

  The record control unit 113 sequentially acquires travel history data from the in-vehicle control device via the in-vehicle network 150 while the accident occurrence determination unit 111 does not determine that the vehicle is an accident vehicle or a surrounding vehicle. Is temporarily stored in the built-in memory. During this time, when the reference time information described later is received from the roadside device 200 by the road-to-vehicle communication device 143, the recording control unit 113 temporarily stores the received reference time information as travel history data in the built-in memory. Keep in memory. During this time, when the road-to-vehicle communication device 143 receives lighting information to be described later from the roadside device 200, the recording control unit 113 temporarily stores the received lighting information in the built-in memory as travel history data. To do.

  Then, when the accident occurrence determination unit 111 determines that the vehicle is an accident vehicle, the recording control unit 113 continues to temporarily store the travel history data in the built-in memory, Of the travel history data temporarily stored in the built-in memory when a certain time (for example, “5 [seconds]) has elapsed with reference to these determination time points, a certain time (for example,“ 10 [seconds ”) from the determination time point. ] ”) The travel history data from before to after the predetermined time (ie,“ 5 [seconds]) ”is read out and recorded in the data recording unit 120. In addition, when the accident occurrence determination unit 111 determines that the vehicle is a surrounding vehicle, the recording control unit 113 continues to temporarily store the travel history data in the built-in memory, Of the travel history data temporarily stored in the built-in memory, the predetermined time (ie, “10 [10]”) before the traffic accident occurrence time included in the accident notification signal (for example, “20 [seconds]”). Second] ”)) is read and recorded in the data recording unit 120.

  When the recording control unit 113 determines that the vehicle is a surrounding vehicle, the recording control unit 113 is issued from the accident vehicle when continuously storing the travel history data in the built-in memory. The vehicle type ID included in the accident notification signal that has already been received is also temporarily stored as the travel history data. The travel history data temporarily stored in the built-in memory is volatile data and disappears when the power of the drive recorder device 100 is turned off, while the travel history data recorded in the data recording unit 120 The history data is non-volatile data and does not disappear even when the drive recorder 100 is turned off. The recording control unit 113 corresponds to a recording processing unit described in the claims.

  In addition, when it is determined that the vehicle is a surrounding vehicle, the time width of the travel history data recorded in the data recording unit 120 is greater in the data recording unit 120 when it is determined that the vehicle is an accident vehicle. The reason why it is longer than the time width of the travel history data to be recorded is that the travel history data for a certain time before and after the traffic accident occurrence time is surely recorded because the internal time is often shifted depending on the vehicle.

  When the accident occurrence determination unit 111 determines that the vehicle is an accident vehicle, the notification processing unit 115 includes the internal time information (that is, traffic accident occurrence time information) and the travel history data included in the travel history data. The position information (ie, traffic accident occurrence location information) included in the vehicle, the reference time information issued and received from the roadside machine 200, and the vehicle type ID of the vehicle (that is, the accident vehicle) stored in advance in the built-in memory In other words, a so-called broadcast broadcast is started in which an accident notification signal for notifying that a traffic accident has occurred is repeatedly transmitted by the inter-vehicle communication device 142 every predetermined time (for example, “10 [seconds]”). Then, after starting the broadcast broadcast, the notification processing unit 115 determines whether or not a later-described notification signal is received through inter-vehicle communication with surrounding vehicles. Here, the drive recorder device 100 continues the broadcast broadcast while not receiving the notified signal by inter-vehicle communication with the surrounding vehicle, while receiving the notified signal by inter-vehicle communication with the surrounding vehicle. The broadcast broadcast is stopped. In the present embodiment, when the notified signal is received by the inter-vehicle communication with the surrounding vehicle, the broadcast broadcast of the notification signal is stopped, but the present invention is not limited to this. In addition, for example, status information indicating whether the vehicle management center 300 has not been notified or has been notified is included in the notification signal, and when the notification signal is received, the vehicle management center 300 has been notified. It is good also as a structure which continues the broadcast broadcast of the notification signal containing the status information which shows that. In such a configuration, in the determination process in step S109 described later, the drive recorder device 100 may determine that the vehicle is a surrounding vehicle when receiving a notification signal including status information indicating that the notification has not been made. .

  Further, when the accident occurrence determination unit 111 determines that the vehicle is a surrounding vehicle, the notification processing unit 115 determines whether or not the surrounding vehicle is located in a communication area for road-to-vehicle communication. When the notification processing unit 115 determines that the surrounding vehicle is located within the communication area for road-to-vehicle communication, the notification processing unit 115 transmits an accident notification signal that has been received from the accident vehicle to the roadside device 200 by road-to-vehicle communication. The roadside machine 200 transmits the accident notification signal to the vehicle management center 300. That is, the notification processing unit 115 transmits an accident notification signal to the vehicle management center 300 via the roadside device 200. In addition, when the notification processing unit 115 determines that the surrounding vehicle is not located in the communication area for road-to-vehicle communication but is located in the communication area for wide area wireless communication, the notification processing unit 115 has already been received from the accident vehicle. The accident notification signal that has been sent is transmitted to the vehicle management center 300 by wide area wireless communication. The notification processing unit 115 corresponds to a notification processing unit described in the claims.

  Further, when it is determined that the vehicle is a surrounding vehicle, the drive recorder device 100 has been notified from the roadside device 200 by the road-to-vehicle communication device 143 or from the vehicle management center 300 by the wide area wireless communication device 141 as described below. It is determined whether or not a signal has been received. When it is determined that the notified signal has been received, the drive recorder device 100 determines whether or not the surrounding vehicle is located in a communication area for inter-vehicle communication with the accident vehicle. When it is determined that the surrounding vehicle is located within the communication area for inter-vehicle communication with the accident vehicle, the drive recorder device 100 transmits the received notification signal to the accident vehicle by the inter-vehicle communication device 142. To do.

  Moreover, the drive recorder apparatus 100 determines whether or not a transmission request signal (described later) issued from the vehicle management center 300 is received by the wide area wireless communication device 141 or the road-vehicle communication device 143.

  When the drive recorder device 100 determines that the transmission request signal has been received, the drive recorder device 100, based on the traffic accident occurrence time information, the traffic accident occurrence location information, and the vehicle type ID (of the accident vehicle) included in the transmission request signal, It is determined (searched) whether or not the corresponding travel history data is recorded in the data recording unit 120.

  Specifically, first, the drive recorder device 100 searches whether traveling history data including a vehicle type ID that matches the vehicle type ID of the accident vehicle is recorded. Next, when the driving history data including the vehicle type ID that matches the vehicle type ID of the accident vehicle is searched, the drive recorder device 100 stores the internal time information and the position information included in the searched driving history data. It is determined whether or not the traffic accident occurrence time and the traffic accident occurrence location included in the transmission request signal are close to each other. Then, when the drive recorder device 100 determines that they are close to each other, it determines that the corresponding travel history data is recorded in the data recording unit 120. Note that “close to each other” means that the difference between the internal time and the traffic accident occurrence time is within a predetermined threshold (for example, “1 [minute]”), and a predetermined threshold (for example, an accident notification signal is received from the traffic accident occurrence location). It means that it is located within a possible distance).

  When it is determined (searched) that the corresponding travel history data is recorded in the data recording unit 120, the drive recorder device 100 reads the corresponding travel history data. When the corresponding travel history data is read, the drive recorder device 100 transmits the read travel history data to the roadside device 200 by road-to-vehicle communication if it is located in the road-to-vehicle communication area. When the roadside machine 200 transmits the accident notification signal to the vehicle management center 300 and is not located in the road-to-vehicle communication area, but is located in the wide-area wireless communication area. The read travel history data is transmitted to the vehicle management center 300 by the wide area wireless communication device 141.

  Next, the roadside machine 200 will be described. The roadside device 200 is installed at the roadside or at an intersection with a traffic light, and is connected to the vehicle management center 300 via the communication network N as shown in FIG. As shown in FIG. 4, the roadside machine 200 includes a roadside machine side control unit 210 and a roadside machine side communication unit 220.

  The roadside machine-side control unit 210 is a computer configured with a known CPU and a built-in memory, and the CPU realizes various functions by executing programs stored in the built-in memory.

  The roadside machine side communication unit 220 is configured with an appropriate antenna, can receive a GPS signal emitted from a GPS satellite (not shown), and is connected to a vehicle located in the communication area. Road-to-vehicle communication is possible. The roadside machine side communication unit 220 can also communicate with the vehicle management center 300 via the communication network N. Further, when the roadside device 200 is installed at the intersection with the traffic light Si, the roadside device side communication unit 220 can also communicate with the police station Po that performs lighting control of the traffic light Si via the communication network N. .

  When the roadside machine-side control unit 210 receives a GPS signal emitted from a GPS satellite (not shown) by the roadside machine-side communication unit 220, the roadside machine side control unit 210 measures the reference time using the received GPS signal. When the roadside machine-side control unit 210 counts the reference time, the roadside machine-side communication unit 220 makes a constant time (for example, “0.01 [second]”) with respect to the vehicle located in the communication area for road-to-vehicle communication. Send reference time information. As described above, the drive recorder device mounted on the vehicle also acquires the internal time information via the in-vehicle network 150, and this internal time information is a time measured by the in-vehicle clock. , It is inferior to the reference time information in terms of accuracy, and often deviates slightly depending on the vehicle. In addition, the roadside machine side control part 210 is corresponded to the time-measurement means as described in a claim.

  Moreover, the roadside machine side control part 210 acquires the lighting information of the traffic light Si from the police station Po connected via the communication network N. When the roadside machine side control unit 210 acquires the lighting information of the traffic light Si, the roadside machine side communication unit 220 sequentially transmits the lighting information to vehicles located in the road-to-vehicle communication area.

  Further, when the roadside machine-side control unit 210 receives the accident notification signal from the vehicle located in the communication area of the road-to-vehicle communication by the roadside machine-side communication unit 220, the roadside machine-side communication unit 220 sends the information to the vehicle management center 300. The received accident notification signal is transmitted via the communication network N.

  In addition, when the roadside machine side control unit 210 receives a notification completion signal from the vehicle management center 300 via the communication network N by the roadside machine side communication unit 220, the roadside machine side communication unit 220 causes the roadside machine side communication unit 220 to enter a communication area for road-to-vehicle communication. The notified signal is transmitted to the vehicle located.

  Further, when the roadside machine side control unit 210 receives a transmission request signal from the vehicle management center 300 via the communication network N by the roadside machine side communication unit 220, the roadside machine side communication unit 220 causes the roadside machine side communication unit 220 to enter a communication area for road-to-vehicle communication. The transmission request signal is transmitted to the vehicle located.

  Further, when the roadside machine-side control unit 210 receives the travel history data from the vehicle located in the road-to-vehicle communication area by the roadside machine-side communication unit 220, the roadside machine-side communication unit 220 causes the roadside machine-side communication unit 220 to The received travel history data is transmitted via the communication network N.

  Next, the configuration and functions of the vehicle management center 300 will be described with reference to FIG. As shown in FIG. 5, the vehicle management center 300 includes a center control unit 310 and a center side communication unit 320.

  The center control unit 310 is a computer having a known CPU and a built-in memory, and the CPU implements various functions by executing programs stored in advance in the built-in memory. In the following description, for the sake of convenience, the center control unit 310 will be described as having a notification processing unit 311, a data collection processing unit 313, a video reproduction processing unit 315, and the like. In the built-in memory, vehicle type information, which is information on the physique of the vehicle (more specifically, the three-dimensional shape of the vehicle) is recorded in association with the vehicle type, and an accident notification signal issued from the accident vehicle is recorded. It is possible to specify the vehicle case based on the vehicle type ID included and the vehicle type ID transmitted from the surrounding vehicle. Further, the notification processing unit 311 corresponds to the notification processing means described in the claims.

  The center side communication part 320 is comprised with a suitable antenna, and wide area wireless communication is possible between the vehicles located in a communication area. The center side communication unit 320 is connected to the police station Po, the hospital Ho, the insurance company In, the road operator Ro, the roadside machine 200, and the like connected to the traffic signal Si via the communication network N. Communication with the destination via the communication network N is possible. The center side communication unit 320 corresponds to the center side communication device described in the claims.

  When the notification processing unit 311 receives the accident notification signal issued from the accident vehicle via the surrounding vehicle by the center side communication unit 320, the traffic accident occurrence time information and the traffic accident occurrence location information included in the received accident notification signal. To the police station Po, the hospital Ho, and the road operator Ro. This facilitates accident handling by the police station Po, lifesaving / emergency processing by the hospital Ho, road restoration processing by the road operator Ro, quick guidance processing of traffic lane regulations, accurate prediction processing of restoration times, etc. To be able to do that. Further, when the traffic accident occurrence state is reproduced in the video by the video reproduction processing unit 315 described later, the notification processing unit 311 provides the insurance company In with video information that is information on the reproduced video. The insurance company In that received the video information should clarify the negligence rate of the traffic accident by checking the video information and the operation status of the accelerator, brake, turn signal, and steering wheel immediately before the traffic accident occurred. Will be able to.

  In addition, when the vehicle management center 300 receives an accident notification signal from an accident vehicle via the surrounding vehicle by the center side communication unit 320, the vehicle management center 300 includes a vehicle type ID of the accident vehicle and a signal indicating that the accident notification signal has been received. Is transmitted to the accident vehicle via the surrounding vehicle by the center side communication unit 320. Specifically, the vehicle management center 300 transmits a notified signal to the surrounding vehicle by wide area wireless communication, and transmits the notified signal from the surrounding vehicle to the accident vehicle by inter-vehicle communication. Alternatively, the vehicle management center 300 transmits a notified signal to the roadside device 200 via the communication network N, causes the notified signal to be transmitted from the roadside device 200 to the surrounding vehicle by road-to-vehicle communication, and further through vehicle-to-vehicle communication. The notified signal is transmitted from the surrounding vehicle to the accident vehicle.

  When the notified signal is transmitted from the center side communication unit 320, the data collection processing unit 313 next includes the traffic accident occurrence time information, the traffic accident occurrence location information, and the vehicle type ID of the accident vehicle, and the traffic accident occurrence time. A transmission request signal for requesting transmission of travel history data for a certain period of time before and after is transmitted to the surrounding vehicle and the accident vehicle by the center side communication unit 320. Specifically, the data collection processing unit 313 transmits a transmission request signal to the surrounding vehicle and the accident vehicle by wide area wireless communication. Further, the data collection processing unit 313 transmits a transmission request signal to the roadside device 200 via the communication network N, and transmits the transmission request signal from the roadside device 200 to surrounding vehicles and accident vehicles by road-to-vehicle communication.

  In addition, the drive recorder apparatus 100 mounted in the surrounding vehicle and the accident vehicle which received this transmission request signal searches corresponding traveling history data. When the drive recorder device 100 searches for the corresponding travel history data, the drive recorder device 100 determines whether or not the vehicle is located in the communication area for road-to-vehicle communication, and determines that the vehicle is located in the communication area for road-to-vehicle communication. In this case, the corresponding travel history data is transmitted by road-to-vehicle communication, and is transmitted from the roadside device 200 to the vehicle management center 300. Further, when the drive recorder device 100 determines that the vehicle is not located in the communication area for road-to-vehicle communication, but determines that the vehicle is located in the communication area for wide area wireless communication, the corresponding travel history data Is transmitted to the vehicle management center 300 by wide area wireless communication.

  In this way, the data collection processing unit 313 collects the travel history data recorded in the drive recorder device mounted on the accident vehicle and the surrounding vehicles. Therefore, the data collection processing unit 313 corresponds to the data collection processing means described in the claims.

  The video reproduction processing unit 315 provides a video of the occurrence of a traffic accident based on the travel history data collected by the data collection processing unit 313 and the vehicle type information specified by the vehicle type ID included in the accident notification signal. To reproduce. Specifically, the video reproduction processing unit 315 first calculates a deviation of the internal time of the accident vehicle from the reference time based on the internal time information and the reference time information included in the travel history data collected from the accident vehicle. Similarly, the video reproduction processing unit 315 calculates a deviation of the internal time of the surrounding vehicle from the reference time based on the internal time information and the reference time information included in the travel history data collected from the surrounding vehicle. Then, the video reproduction processing unit 315 corrects the deviation from the reference time, and then, based on the travel history data of the accident vehicle, the travel history data of the surrounding vehicles, and the vehicle case information, the traffic accident occurrence situation is displayed as a 3D animation image. To reproduce. The video reproduction processing unit 315 corresponds to the reproduction processing means described in the claims.

  The operation of the drive recorder system 1 configured as described above will be described. When the ignition switch of the vehicle is turned on, the drive recorder device 100 performs recording / determination processing S100 shown in FIG. 6, accident notification signal transmission processing S120 shown in FIG. 7, accident notification signal transmission processing S130 shown in FIG. The execution of the notified signal transmission process S140 shown in FIG. 9 and the search / transmission process S150 shown in FIG. 10 is started.

  When the execution of the recording / determination process S100 is started, the drive recorder apparatus 100 starts to temporarily store the travel history data acquired from the in-vehicle control apparatus in the built-in memory as the process of step S101.

  When the drive recorder device 100 starts to temporarily store the travel history data acquired from the in-vehicle control device in the built-in memory, the road recorder-to-vehicle communication device 143 determines the reference time from the roadside device 200 as a determination process in step S102. It is determined whether information has been received. Here, when the reference time information is received (“Yes” in the determination process in step S102), the drive recorder device 100 temporarily stores the reference time information in the built-in memory as travel history data as the subsequent process in step S103. The process proceeds to the determination process in step S104. On the other hand, when the reference time information is not received (“No” in the determination process in step S102), the drive recorder apparatus 100 proceeds to the subsequent determination process in step S104.

  In step S104, the drive recorder apparatus 100 determines whether or not lighting information is received from the roadside device 200 by the road-to-vehicle communication device 143. Here, when the lighting information is received (“Yes” in the determination process in step S104), the drive recorder apparatus 100 temporarily stores and holds the lighting information as the travel history data in the built-in memory as the subsequent process in step S105. Then, the process proceeds to the determination process in step S106. On the other hand, when the lighting information has not been received (“No” in the determination process in step S104), the drive recorder apparatus 100 proceeds to the subsequent determination process in step S106.

  When the process proceeds to the determination process in step S106, the drive recorder apparatus 100 determines whether or not impact location information has been acquired as travel history data. Here, when it is determined that the impact location information has been acquired (“Yes” in the determination process in step S106), the drive recorder apparatus 100 determines that the vehicle is an accident vehicle as the subsequent processes in step S107 and step S108. When the predetermined time has elapsed with reference to the determination time, the travel history data of the predetermined time before and after the determination time is read from the travel history data temporarily stored in the built-in memory and recorded in the data recording unit 120. To do. On the other hand, when it is not determined that the impact location information has been acquired (“No” in the determination process in step S106), the drive recorder apparatus 100 proceeds to the subsequent determination process in step S109.

  In step S109, the drive recorder apparatus 100 determines whether an accident notification signal is received from another vehicle by the inter-vehicle communication device 142. If it is determined that the accident notification signal has been received (“Yes” in the determination process in step S109), the drive recorder apparatus 100 determines that the vehicle is a surrounding vehicle as the subsequent processes in step S110 and step S111. Then, out of the travel history data temporarily stored in the built-in memory, the travel history data for a predetermined time before and after the traffic accident occurrence time included in the accident notification signal is read and recorded in the data recording unit 120. On the other hand, when it is not determined that the accident notification signal has been received from another vehicle by the inter-vehicle communication device 142 (“No” in the determination process of step S106), the drive recorder device 100 performs the determination process of the previous step S102. Try again.

  When the accident recorder signal transmission process S120 starts to be executed, the drive recorder apparatus 100 determines whether or not the vehicle is an accident vehicle as a determination process in step S121, that is, in the previous recording / determination process S110. It is determined whether it was determined that the vehicle was an accident. Here, when it is not determined that the vehicle is an accident vehicle (“No” in the determination process of step S121), the drive recorder device 100 executes the determination process of step S121 again. In other words, the drive recorder device 100 waits until it is determined that the vehicle is an accident vehicle through the determination process in step S121.

  When it is determined that the vehicle is an accident vehicle (“Yes” in the determination process of step S121), the drive recorder device 100 starts broadcast broadcasting of an accident notification signal as the subsequent process of step S122. Specifically, the drive recorder device 100 notifies that a traffic accident has occurred, including traffic accident occurrence time information, traffic accident occurrence location information, reference time information, and vehicle type ID of the accident vehicle included in the travel history data. The accident notification signal is repeatedly transmitted at regular intervals by the inter-vehicle communication device 142.

  When the process proceeds to step S122, the drive recorder apparatus 100 determines whether or not a notified signal has been received as the determination process in step S123. Here, when it is not determined that the notified signal has been received (“No” in the determination process of step S123), the drive recorder apparatus 100 executes the process of the previous step S122 again to broadcast the accident notification signal. Continue. On the other hand, when it is determined that the notified signal has been received (“Yes” in the determination process of step S123), the drive recorder device 100 stops the broadcast broadcast of the accident notification signal as the subsequent process of step S124, and the previous step The determination process of S121 is executed again.

  In addition, when the accident notification signal transmission process S130 is started, the drive recorder apparatus 100 determines whether or not the vehicle is a surrounding vehicle, that is, in the previous recording / determination process S110, as the determination process in step S131. It is determined whether it is determined that the vehicle is a surrounding vehicle. Here, when it is not determined that the vehicle is a surrounding vehicle (“No” in the determination process of step S131), the drive recorder device 100 executes the determination process of step S131 again. That is, the drive recorder device 100 waits until it is determined that the vehicle is a surrounding vehicle through the determination process in step S131.

  When it is determined that the vehicle is a surrounding vehicle (“Yes” in the determination process in step S131), the drive recorder device 100 determines that the surrounding vehicle is within the communication area for road-to-vehicle communication as the determination process in step S132. Judge whether there is. Here, when it is determined that the surrounding vehicle is located within the communication area for road-to-vehicle communication (“Yes” in the determination process of step S132), the drive recorder device 100 is issued from the accident vehicle as the subsequent process of step S133. The accident notification signal that has already been received is transmitted to the vehicle management center 300 by the road-to-vehicle communication device 143 via the roadside device 200.

  When it is determined in the determination process of step S132 that the surrounding vehicle is located within the communication area for road-to-vehicle communication ("No" in the determination process of step S132), the drive recorder device 100 performs the determination process of the following step S134. It is determined whether or not the surrounding vehicle is within a communication area for wide area wireless communication. Here, when it is determined that the surrounding vehicle is located in the communication area of the wide area wireless communication (“Yes” in the determination process of step S134), the drive recorder device 100 is issued from the accident vehicle as the subsequent process of step S135. The accident notification signal that has already been received is transmitted to the vehicle management center 300 by the wide area wireless communication device 141.

  And when it is not determined that the surrounding vehicle is located in the communication area for wide area wireless communication in the determination process of step S134 ("No" in the determination process of step S134), or when the process of step S133 is terminated, Or when the process of the said step S135 is complete | finished, the drive recorder apparatus 100 performs the determination process of previous step S131 again.

  Further, when the execution of the notified signal transmission process S140 is started, the drive recorder apparatus 100 determines whether or not the vehicle is a surrounding vehicle, that is, in the previous recording / determination process S110, as the determination process in step S141. It is determined whether it is determined that the vehicle is a surrounding vehicle. Here, when it is not determined that the vehicle is a surrounding vehicle (“No” in the determination process of step S141), the drive recorder apparatus 100 executes the determination process of step S141 again. That is, the drive recorder device 100 stands by until it is determined that the vehicle is a surrounding vehicle through the determination process in step S141.

  Further, when it is determined that the vehicle is a surrounding vehicle, the drive recorder device 100 has been notified from the roadside device 200 by the road-to-vehicle communication device 143 or from the vehicle management center 300 by the wide area wireless communication device 141 as described below. It is determined whether or not a signal has been received. When it is determined that the notified signal has been received, the drive recorder device 100 determines whether or not the surrounding vehicle is located in a communication area for inter-vehicle communication with the accident vehicle. When it is determined that the surrounding vehicle is located within the communication area for inter-vehicle communication with the accident vehicle, the drive recorder device 100 transmits the received notification signal to the accident vehicle by the inter-vehicle communication device 142. To do.

  And when it is not determined that the surrounding vehicle is located in the communication area for wide area wireless communication in the determination process of step S134 ("No" in the determination process of step S134), or when the process of step S133 is terminated, Or when the process of the said step S135 is complete | finished, the drive recorder apparatus 100 performs the determination process of previous step S131 again.

  Further, when the execution of the notified signal transmission process S140 is started, the drive recorder apparatus 100 determines whether or not the vehicle is a surrounding vehicle, that is, in the previous recording / determination process S110, as the determination process in step S141. It is determined whether it is determined that the vehicle is a surrounding vehicle. Here, when it is not determined that the vehicle is a surrounding vehicle (“No” in the determination process of step S141), the drive recorder apparatus 100 executes the determination process of step S141 again. That is, the drive recorder device 100 stands by until it is determined that the vehicle is a surrounding vehicle through the determination process in step S141.

  When it is determined that the vehicle is a surrounding vehicle (“Yes” in the determination process in step S141), the drive recorder apparatus 100 performs the determination process in step S142 from the roadside apparatus 200 by the road-to-vehicle communication device 143, or It is determined whether or not the notified signal is received from the vehicle management center 300 by the wide area wireless communication device 141. If it is determined that the notified signal has been received (“Yes” in the determination process in step S142), the drive recorder apparatus 100 proceeds to the subsequent determination process in step S143.

  When the process proceeds to the determination process in the subsequent step S143, the drive recorder apparatus 100 determines whether or not the surrounding vehicle is located in a communication area for inter-vehicle communication with the accident vehicle. When it is determined that the surrounding vehicle is located in the communication area of the vehicle-to-vehicle communication with the accident vehicle (“Yes” in the determination process in step S143), the drive recorder device 100 performs the following process in step S144. Send a notification signal to the accident vehicle by inter-vehicle communication.

  If it is not determined that the notified signal has been received in the determination process of step S142 (“No” in the determination process of step S142), the distance between the vehicle and the neighboring vehicle is the accident vehicle in the determination process of step S143. When it is not determined that it is located within the communication area of communication (“No” in the determination process of step S143), or when the process of step S144 is executed, the drive recorder device 100 performs the process of the previous step S141. The determination process is executed again.

  When the search / transmission process S150 is started, the drive recorder apparatus 100 transmits a transmission request signal issued from the vehicle management center 300 to the wide area radio communication device 141 or the road-to-vehicle communication device 143 as a determination process in step S151. It is determined whether or not it has been received. Here, when it is not determined that the transmission request signal has been received (“No” in the determination process of step S151), the drive recorder apparatus 100 executes the determination process of step S151 again. That is, the drive recorder device 100 stands by until it is determined that the transmission request signal has been received through the determination process in step S151.

  When it is determined that the transmission request signal has been received (“Yes” in the determination process of step S151), the drive recorder apparatus 100 includes the traffic accident occurrence time information included in this transmission request signal as the subsequent process of step S152. Based on the traffic accident occurrence location information and the vehicle type ID, the corresponding travel history data is searched from the data recording unit 120, and the process proceeds to the determination process in the subsequent step S153.

  When the process proceeds to the determination process in step S153, the drive recorder apparatus 100 determines whether or not the corresponding travel history data is recorded in the data recording unit 120. Here, when it is determined that the corresponding travel history data is recorded in the data recording unit 120 (“Yes” in the determination process of step S153), the drive recorder device 100 performs the corresponding travel as the process of step S154. When the history data is read and located in the communication area for road-to-vehicle communication, the read travel history data is transmitted to the roadside machine 200 by road-to-vehicle communication, and the roadside machine 200 sends it to the vehicle management center 300. The accident notification signal is transmitted to the vehicle, and if it is not located in the road-to-vehicle communication area but is located in the wide-area wireless communication area, the read travel history data is The data is transmitted to the vehicle management center 300 by the communication device 141. If the vehicle is a nearby vehicle, the vehicle type ID is also transmitted in addition to the travel history data. Note that the processing in step S154 corresponds to data transmission processing means.

  On the other hand, if it is not determined in the determination process in step S153 that the corresponding travel history data is recorded in the data recording unit 120 (“No” in the determination process in step S153), or the process in step S154 Is executed, the drive recorder apparatus 100 executes the determination process of the previous step S151 again.

  The roadside machine 200 sequentially executes roadside machine side processing S200 shown in FIG. Specifically, when the roadside device side processing S200 starts to be executed, the roadside device 200 transmits the reference time information by the road-to-vehicle communication device 143 as the processing of step S201, and as the processing of step S202 by the road-to-vehicle communication device 143. The lighting information is transmitted, and the process proceeds to the subsequent determination process in step S203.

  When the determination process proceeds to the subsequent step S203, the roadside device 200 determines whether or not the roadside device communication unit 220 has received an accident notification signal. Here, when it is determined that the roadside unit communication unit 220 has received the accident notification signal (“Yes” in the determination process in step S203), the roadside unit 200 performs the subsequent step S204 as the roadside unit communication unit 220. Then, the accident notification signal is transmitted to the vehicle management center 300, and the process proceeds to the determination process in step S205. On the other hand, when it is not determined that the accident notification signal has been received by the roadside device side communication unit 220 (“No” in the determination process of step S203), the roadside device 200 proceeds to the subsequent determination process of step S205.

  In step S205, the roadside device 200 determines whether the roadside device side communication unit 220 has received a notification signal from the vehicle management center 300 via the communication network N. Here, when it is determined that the notified signal has been received from the vehicle management center 300 by the roadside machine side communication unit 220 (“Yes” in the determination process of step S205), the roadside machine 200 performs a roadside process as a process of subsequent step S206. The aircraft-side communication unit 220 transmits the notified signal to the vehicle located in the communication area for road-to-vehicle communication, and the process proceeds to the subsequent determination process in step S207. On the other hand, when it is not determined that the notified signal is received from the vehicle management center 300 by the roadside unit communication unit 220 (“No” in the determination process of step S205), the roadside unit 200 proceeds to the determination process of the subsequent step S207. Transition.

  In step S207, the roadside device 200 determines whether the roadside device communication unit 220 has received a transmission request signal from the vehicle management center 300 via the communication network N. Here, when it is determined that the transmission request signal is received from the vehicle management center 300 by the roadside machine side communication unit 220 (“Yes” in the determination process of step S207), the roadside machine 200 performs the roadside process as the process of the subsequent step S208. The aircraft communication unit 220 transmits the transmission request signal to the vehicle located in the communication area for road-to-vehicle communication, and the process proceeds to the subsequent determination process in step S209. On the other hand, when it is not determined that the transmission request signal has been received from the vehicle management center 300 by the roadside device side communication unit 220 (“No” in the determination processing in step S207), the roadside device 200 proceeds to the determination processing in the subsequent step S209. Transition.

  As a determination process in subsequent step S209, the roadside device 200 determines whether or not the travel history data is received by the roadside device side communication unit 220. Here, when it is determined that the travel history data has been received by the roadside machine side communication unit 220 (“Yes” in the determination process of step S209), the roadside machine 200 performs the process of step S210 as the roadside machine side communication unit 220. Thus, the traveling history data is transmitted to the vehicle management center 300, and the roadside machine side processing in step S200 is terminated. On the other hand, when it is not determined that the travel history data has been received by the roadside machine side communication unit 220 (“No” in the determination process of step S209), the roadside machine 200 ends the roadside machine side process as it is.

  The vehicle management center 300 sequentially executes the center side processing S300 shown in FIG. Specifically, when the execution of the center-side process S300 is started, the vehicle management center 300 determines whether or not the accident-notification signal issued from the accident vehicle is received by the center-side communication unit 320 via the surrounding vehicle as the determination process in step S301. Determine whether. Here, when it is not determined that the vehicle management center 300 has received the accident notification signal (“No” in the determination process of step S301), the vehicle management center 300 executes the determination process of step S301 again. In other words, the vehicle management center 300 stands by until it is determined that the accident notification signal has been received through the determination process in step S301.

  If it is determined that the accident notification signal has been received, the vehicle management center 300 proceeds to the subsequent step S302. In step S302, the vehicle management center 300 sends the traffic accident occurrence time information and the traffic accident occurrence location information included in the received accident notification signal to the police station Po, the hospital Ho, and the road operator Ro, respectively. Then, the process proceeds to step S303.

  If transfering to the process of step S303, the vehicle management center 300 will transmit a notification completion signal with respect to an accident vehicle via a surrounding vehicle by the center side communication part 320. FIG. Specifically, the vehicle management center 300 transmits a notified signal to the surrounding vehicle by wide area wireless communication, and transmits the notified signal from the surrounding vehicle to the accident vehicle by inter-vehicle communication. Alternatively, the vehicle management center 300 transmits a notified signal to the roadside device 200 via the communication network N, causes the notified signal to be transmitted from the roadside device 200 to the surrounding vehicle by road-to-vehicle communication, and further through vehicle-to-vehicle communication. The notified signal is transmitted from the surrounding vehicle to the accident vehicle. And the vehicle management center 300 transfers to the process of the following step S304.

  In step S304, the vehicle management center 300 transmits a transmission request signal to the surrounding vehicle and the accident vehicle by the center side communication unit 320. Specifically, the vehicle management center 300 transmits a transmission request signal to surrounding vehicles and accident vehicles by wide area wireless communication. In addition, the vehicle management center 300 transmits a transmission request signal to the roadside device 200 via the communication network N, and transmits the transmission request signal from the roadside device 200 to surrounding vehicles and accident vehicles by road-to-vehicle communication. And the vehicle management center 300 transfers to the determination process of subsequent step S305.

  In step S305, the vehicle management center 300 receives the travel history data from the accident vehicle by the center side communication unit 320, and receives the travel history data and the vehicle type ID from the surrounding vehicle that collided with the accident vehicle. Determine whether or not. Although it is conceivable to receive data from a plurality of surrounding vehicles, whether or not the surrounding vehicle collides with the accident vehicle is determined from the position of the accident vehicle and the position of the surrounding vehicle. Here, when it is not determined that the data has been received (“No” in the determination process of step S305), the vehicle management center 300 executes the determination process of step S305 again. On the other hand, if it is determined that it has been received (“Yes” in the determination process in step S305), the vehicle management center 300 proceeds to the video reproduction process in the subsequent step S306. finish.

  When the execution of the video reproduction process S306 is started, first, the vehicle management center 300 performs an internal time of the accident vehicle based on the internal time information and the reference time information included in the travel history data collected from the accident vehicle as a process of step S3061. The deviation from the reference time is calculated. Next, the vehicle management center 300 calculates a deviation of the internal time of the surrounding vehicle from the reference time based on the internal time information and the reference time information included in the travel history data collected from the surrounding vehicles. Then, the vehicle management center 300 corrects the deviation from the reference time, and based on the travel history data of the accident vehicle, the travel history data of the surrounding vehicles, and the vehicle case information, the traffic accident occurrence situation is converted into a 3D animation image. To reproduce. A specific process for reproducing the 3D animation image is performed as follows, for example. First, information such as road shapes and buildings in a predetermined range including the accident occurrence location is acquired from a predetermined database, and images of roads and buildings in the accident occurrence location are created. Then, the three-dimensional shape of the accident vehicle and the three-dimensional shape of the surrounding vehicle that collided with the accident vehicle are specified based on the vehicle type ID. Then, based on the position information and the internal time information included in the travel history data, the 3D shape of the accident vehicle and the surrounding vehicle that collided with the accident vehicle is continuously moved to obtain a 3D animation image. In addition, when the travel history data and the vehicle type ID can be received from surrounding vehicles other than the surrounding vehicle that collided with the accident vehicle, the three-dimensional shape of the surrounding vehicle may be added to the 3D animation image.

  Referring to FIGS. 14 to 17 as well, an aspect of transmission of the accident notification signal by wide area wireless communication via the peripheral vehicle A12 from the accident vehicle A11 to the vehicle management center 300, and from the vehicle management center 300 to the accident vehicle A11. A transmission mode of the notified signal by the wide area wireless communication via the peripheral vehicle A12 will be further described.

  In FIG. 14, the surrounding vehicle A12 is located in a communication area for vehicle-to-vehicle communication with the accident vehicle A11, and a communication area for road-to-vehicle communication with the roadside machine 200 (not shown in FIG. 14). Although it is not located inside, it shall be located in the communication area of wide area wireless communication between the vehicle management centers 300. FIG. Further, in FIG. 15, it is assumed that the surrounding vehicles A12 to A14 are located in a communication area indicated by a broken line of inter-vehicle communication with the accident vehicle A11. In FIG. 16, the surrounding vehicle A12 is initially located in the communication area for vehicle-to-vehicle communication with the accident vehicle A11, and in the communication area for road-to-vehicle communication with the roadside machine 200 and the vehicle management center. Although it was not located in the communication area of wide area wireless communication with 300, after moving as shown by a two-dot chain line in FIG. 16, communication of road-to-vehicle communication with the roadside machine 200 It shall be located in the area. In FIG. 17, the surrounding vehicle A12 is initially located in the communication area for road-to-vehicle communication with the roadside machine 200, and in the communication area for vehicle-to-vehicle communication with the accident vehicle A11 and the vehicle management center. Although it was not located in the communication area of wide area wireless communication with 300, after moving as shown by a two-dot chain line in FIG. 17, communication of vehicle-to-vehicle communication with the accident vehicle A11 It shall be located in the area.

  When the drive recorder device 100 mounted on the vehicle A11 determines that the vehicle A11 is an accident vehicle, the road-to-vehicle communication device 143 transmits an accident notification signal to the surrounding vehicle A12 as shown in FIG. Actually, when a traffic accident involving the vehicle A11 occurs, the drive recorder device 100 mounted on the vehicle A11 sets the vehicle type ID (ID_A) in the communication area for inter-vehicle communication as shown in FIG. The accident notification signal including the broadcast notification is broadcast, and the vehicles A12 to A14 located in the communication area of the inter-vehicle communication receive the accident notification signal.

  Then, as shown in FIG. 16, the surrounding vehicle A12 that has received the accident notification signal through the vehicle-to-vehicle communication is initially in the communication area for road-to-vehicle communication with the roadside machine 200, and between the vehicle management center 300 and the vehicle. If it is not located in the communication area of wide area wireless communication and reaches the communication area of road-to-vehicle communication with the roadside machine 200 after moving, an accident occurs in the roadside supervision communication with the roadside machine 200 The notification signal is transmitted, and the roadside device 200 transmits the received accident notification signal to the vehicle management center 300. Alternatively, the surrounding vehicle A12 that has received the accident notification signal by the inter-vehicle communication is initially in the communication area of the wide area wireless communication with the vehicle management center 300 in the communication area of the road-to-vehicle communication with the roadside device 200. 14 is not located, and after moving, when reaching the communication area of wide area wireless communication with the vehicle management center 300 as shown in FIG. Send an accident notification signal.

  Thus, the accident notification signal is transmitted from the accident vehicle A11 to the vehicle management center 300 via the surrounding vehicle A12.

  When the vehicle management center 300 determines that the accident notification signal has been received, the vehicle management center 300 transmits a notification completion signal to the accident vehicle A11 via the surrounding vehicle A12. Specifically, as shown in FIG. 17, the vehicle management center 300 sends a signal that has been notified to the roadside device 200 when the surrounding vehicle A12 is located in the communication area for road-to-vehicle communication with the roadside device 200. Send. The roadside device 200 that has received the notified signal transmits the received notified signal to the surrounding vehicle 12 by road-to-vehicle communication. Then, when the surrounding vehicle A12 that has received the notified signal reaches the communication area for inter-vehicle communication with the accident vehicle A11 after moving, the received notification signal is transmitted to the accident vehicle A11. Send in. Further, as shown in FIG. 14, the vehicle management center 300 is located in the communication area for wide area wireless communication, although the surrounding vehicle A12 is not located in the communication area for road-to-vehicle communication with the roadside device 200. If not, a notification completion signal is transmitted to the surrounding vehicle A12. Then, when the surrounding vehicle A12 that has received the notified signal reaches the communication area for inter-vehicle communication with the accident vehicle A11 after moving, the received notification signal is transmitted to the accident vehicle A11. Send in.

  In this way, the notified signal is transmitted from the vehicle management center 300 to the accident vehicle A11 via the surrounding vehicle A12.

  Further, with reference to FIGS. 18 to 21, the reproduction of the traffic accident occurrence situation by video will be further described.

  18A shows a state before the collision between vehicles, FIG. 18B shows a state when the collision between vehicles occurs, and FIG. 18C shows the state shown in FIG. The mode at the time of the 2nd collision with the building resulting from the collision of the vehicles shown in b) is shown. First, an example of a traffic accident occurrence situation will be described with reference to FIGS. 18 (a) to 18 (c).

  Specifically, as shown in FIGS. 18A to 18C, a T-shaped intersection is constituted by a road R1 extending in the left-right direction in the drawing and a road R2 extending from the lower side to the upper side in the drawing. As shown in FIG. 18A, the vehicle A11 travels on the road R1 from the right to the left and right in the figure, and the vehicle A21 travels on the road R2 from the bottom to the top in the figure. . Then, as shown in FIG. 18B, when the vehicle A11 and the vehicle A21 reach the T-shaped intersection, that is, at the meeting point, the forward left corner of the vehicle A11 and the forward right corner of the vehicle A21 A collision occurred. At the time of this collision, the driver of the vehicle A21 has entered the T-shaped intersection without stopping the vehicle A21, and the driver of the vehicle A11 discovered that the vehicle A21 entered the T-shaped intersection. The accelerator pedal was switched to the brake pedal, and the ABS was operating. Further, as shown in FIG. 18 (c), the vehicles A11 and A21 rotate due to the encounter collision, respectively, and a building (not shown) facing the left corner of the vehicle A11 and the road R1. And the second collision between the forward left corner of the vehicle A21 and the building (not shown) facing the T-shaped intersection. The accident vehicle A11 corresponds to a vehicle around the accident vehicle A21, and the accident vehicle A21 corresponds to a vehicle around the accident vehicle A11.

  Moreover, FIG. 19 has shown the transmission aspect of the reference time information by the road-to-vehicle communication from the roadside machine 200 to a vehicle. Next, the transmission mode of the reference time information will be described with reference to FIG.

  Specifically, as shown in FIG. 19, the roadside machine 200 is installed at a T-shaped intersection between the road R1 and the road R2 and is used for road-to-vehicle communication with the roadside machine 200 (shown by a broken line). The communication area is set to include this T-shaped intersection. The roadside device 200 transmits reference time information at regular intervals to vehicles located within a communication area indicated by a broken line of road-to-vehicle communication with the roadside device 200.

  18 (a) to 18 (c), for convenience of illustration, the communication area of the roadside machine 200 is not shown, but the vehicles A11 and A21 are within the communication area of roadside vehicle communication of the roadside machine 200. Is located. Further, it is assumed that the situation shown in FIGS. 18A to 18C is reached at the reference times T101 to T103, and the vehicles A11 and A21 are receiving the reference time information.

  FIG. 20 shows an example of travel history data collected from the accident vehicles A11 and A21 by the vehicle management center 300 under these assumptions. The travel history data shown in FIG. 20 includes travel history data at the reference time T101, travel history data at the reference time T102, and reference time among the travel history data collected by the vehicle management center 300 from the accident vehicles A11 and A21. The travel history data at T103 is shown. Further, FIG. 21 shows an example of vehicle data (for example, full length, full width, full height, etc.) of the accident vehicles A11 and A21 specified based on the vehicle type ID included in the accident notification signal.

  The vehicle management center 300 reproduces the traffic accident occurrence situation in 3D animation video based on the internal time information and the reference time information included in the travel history data collected from the accident vehicle and the surrounding vehicles.

  Specifically, the vehicle management center 300 first calculates the deviation of the internal time with respect to the reference time from the internal time information and the reference time information included in the travel history data of the accident vehicle A11. In the example shown in FIGS. 18 and 20, the internal time included in the travel history data of the accident vehicle A11 acquired at the reference time T101, that is, “2010/10/27/14: 35: 22: 05” is “2010. / 10/10/27/14: 35: 22: 05 ”, which agrees. Therefore, the travel history data of the accident vehicle A11 is “not present” with respect to the reference time.

  Further, the vehicle management center 300 calculates the deviation of the internal time with respect to the reference time from the internal time information and the reference time information included in the travel history data of the accident vehicle A21. In the example shown in FIGS. 18 and 20, the internal time included in the travel history data of the accident vehicle A21 acquired at the reference time T101, that is, “2010/10/27/14: 35: 22: 05” is “2010. / 10/27/14: 35: 22: 13 ", which is shifted. Accordingly, in the travel history data of the accident vehicle A21, there is a deviation of the internal time with respect to the reference time by “a delay of“ 0.08 [second] ””.

  Since the accident vehicle A11 corresponds to the surrounding vehicle of the accident vehicle A21, and the accident vehicle A21 corresponds to the surrounding vehicle of the accident vehicle A11, the vehicle management center 300 includes the internal information included in the travel history data collected from the surrounding vehicles. The deviation of the internal time of surrounding vehicles based on the time information and the reference time information is not calculated with respect to the reference time.

  Then, the vehicle management center 300 advances the reference of the internal time of the travel history data of the accident vehicle A21 by “0.08 [seconds]”, so that the reference of the internal time of the travel history data of the accident vehicle A11 and the accident The driving history data of the vehicle A21 is matched with the internal time reference, and the traffic accident occurrence state is reproduced by 3D animation using the driving history data that matches the internal time reference. 18A to 18C are examples of 3D animation images reproduced based on the travel history data.

  In the embodiment described above, the drive recorder system 1 collects the travel history data of the accident vehicle and the surrounding vehicles, and reproduces the occurrence situation of the traffic accident on the video based on the collected travel history data. . For this reason, the reproduced video is not affected by the influence of the weather at the time of occurrence of the traffic accident or the contamination of the camera lens, unlike the video reproduced by the conventional technique using the camera image. Since the reproduced video is not affected by this, it is possible to more accurately grasp the situation of the accident.

  In the above embodiment, the drive recorder system 1 reproduces the traffic accident occurrence situation with 3D animation images. As a result, not only the “viewpoint from above” as in the example shown in FIG. 18 but also the “viewpoint from the forward direction of the accident vehicle”, the “viewpoint from the side direction of the accident vehicle”, etc. Will be able to see.

  In the above embodiment, when the vehicle management center 300 receives the accident notification signal from the drive recorder device 100, the vehicle management center 300 uses the police station Po, the traffic accident occurrence time information and the traffic accident occurrence location information included in the accident notification signal. Reported to Hospital Ho and road operator Ro. As a result, the accident processing by the police station Po, the lifesaving / emergency processing by the hospital Ho, the restoration processing of the traffic accident site by the road operator Ro, and the like can be facilitated.

  In the above embodiment, when the vehicle management center 300 reproduces the traffic accident occurrence situation on the video based on the travel history data collected from the drive recorder device 100, the vehicle management center 300 provides the reproduced video information to the insurance company In. did. Thereby, it becomes possible to clarify the negligence ratio of the traffic accident.

  In the above-described embodiment, the roadside device 200 is installed at an intersection with a traffic light, etc., acquires lighting information of the traffic light Si, and the drive recorder device 100 performs roadside-vehicle communication that performs wireless communication with the roadside device 200. The recorder control unit 110 records lighting information as travel history data in the data recording unit 120 based on the reception of lighting information by the road-to-vehicle communication device 143. . Since the video reproducing the occurrence of the traffic accident includes the lighting information of the traffic light Si, it becomes possible to clarify the negligence ratio of the vehicle driver involved in the traffic accident.

  In the above embodiment, the roadside device 200 measures the reference time using a GPS signal emitted from a GPS satellite (not shown), and the drive recorder device 100 receives the reference time information by the road-to-vehicle communication device 143. Then, the reference time information is also recorded in the data recording unit 120 as the travel history data, and the occurrence of the traffic accident is reproduced on the video based on the reference time information included in the travel history data collected from the accident vehicle and the surrounding vehicles. It was decided. This makes it possible to more reliably reproduce the occurrence of a traffic accident.

(Other embodiments)
The drive recorder system 1 and the drive recorder apparatus 10 according to the present invention are not limited to the above-described embodiments, and can be implemented with various modifications without departing from the spirit of the present invention. In other words, for example, the following embodiment can be implemented by appropriately changing the above embodiment.

  In the above embodiment, the vehicle management center 300 displays the occurrence of a traffic accident on the basis of not only the internal time information included in the travel history data collected from the accident vehicle and the surrounding vehicles but also the reference time information. Although it was reproduced, it is possible to reproduce the occurrence of a traffic accident on video without being based on the reference time information.

  Specifically, when the vehicle management center 300 determines that a traffic accident involving a plurality of accident vehicles has occurred based on the travel history data collected from the accident vehicle and the surrounding vehicles, It is good to reproduce the situation of the occurrence of a traffic accident on the video after matching the time when the vehicle body was impacted. This will be specifically described with reference to FIG. The internal time of the accident vehicle A11 when the first impact occurs is “2010/10/27/14: 35: 24: 38”, and the internal time of the accident vehicle S21 when the first impact occurs is “2010/10/27/14: 35: 24: 46”. Therefore, it can be seen that the reference of the internal time of the travel history data of the accident vehicle A11 is “0.08 [second]” ahead of the internal time reference of the travel history data of the accident vehicle A21. Therefore, the vehicle management center 300 sets the reference of the internal time of the travel history data of the accident vehicle A11 by delaying the reference of the internal time of the travel history data of the accident vehicle A11 by “0.08 [seconds]” or Is advanced by “0.08 [seconds]” to match the internal time reference of the travel history data of the accident vehicle A11 with the internal time reference of the travel history data of the accident vehicle A21. What is necessary is just to reproduce the occurrence state of a traffic accident by 3D animation using the travel history data with which the criteria coincided.

  In addition, when the vehicle management center 300 determines that a traffic accident has occurred on the basis of the travel history data collected from the accident vehicles A11 and A21, each of the plurality of accident vehicles A11 and A21 has received an impact several times. In order to match the elapsed time between the impacts received by the bodies of the multiple accident vehicles A11 and A21, the time points of the impacts are matched, and the occurrence of the traffic accident is shown on the video. It may be reproduced.

  Details will be specifically described with reference to FIG. The internal time of the accident vehicle A11 when the first impact occurs is “2010/10/27/14: 35: 24: 38”, and the internal time of the accident vehicle S21 when the first impact occurs is “2010/10/27/14: 35: 24: 46”. The internal time of the accident vehicle A11 when the second impact occurs is “2010/10/27/14: 35: 27: 29”, and the internal time of the accident vehicle S21 when the first impact occurs. The time is “2010/10/27/14: 35: 27: 37”. Therefore, the elapsed time between the first and second impacts occurring in the accident vehicle A11 is “2:51”, and the elapsed time between the first and second impacts occurring in the accident vehicle A21 is also “2:51”. "And match. Therefore, it can be understood that the first impact generated in the accident vehicle A11 and the first impact generated in the accident vehicle A21 are the same impact, and the travel history data of the accident vehicle A11 at the time when the same impact occurred. By comparing the internal time information included in the travel history data of the accident vehicle A21 at the time when the same impact as the internal time information included is generated, the reference of the internal time of the travel history data of the accident vehicle A11 is the accident vehicle A21. It can be seen that “advanced by“ 0.08 [second] ”” from the internal time reference of the travel history data of “No. Therefore, the vehicle management center 300 sets the reference of the internal time of the travel history data of the accident vehicle A11 by delaying the reference of the internal time of the travel history data of the accident vehicle A11 by “0.08 [seconds]” or Is advanced by “0.08 [seconds]” to match the internal time reference of the travel history data of the accident vehicle A11 with the internal time reference of the travel history data of the accident vehicle A21. The traffic accident occurrence situation may be reproduced by 3D animation using the travel history data that matches the criteria.

  Further, in the above embodiment, when the vehicle management center 300 determines that the travel history data has been received in the determination process of the previous step S305, the vehicle reproduction center 300 immediately executes the video reproduction process of the subsequent step S306. The traffic accident occurrence situation was immediately reproduced on the video, but it is not necessary to reproduce the traffic accident occurrence situation on the video immediately.

  Moreover, in the said embodiment, although the vehicle management center 300 reproduced the traffic accident occurrence situation in 3D animation image | video, you may reproduce it in 2D animation image | video.

  Moreover, in the said embodiment, although the drive recorder apparatus 100 mounted in the accident vehicle transmitted the accident notification signal and the travel history data to the vehicle management center 300 at different times, the present invention is not limited to this. For example, the drive recorder device 100 transmits the travel history data to the vehicle management center 300 when transmitting the accident notification signal, or transmits the travel history data to the vehicle management center 300 by including the travel history data in the accident notification signal. The accident notification signal and the travel history data may be transmitted to the vehicle management center 300 at the same time.

  Moreover, in the said embodiment, although the vehicle management center 300 reproduced the traffic accident occurrence situation with the image | video including a road and a building, it is not restricted to this. The vehicle management center 300 does not include a road or a building, and may reproduce a traffic accident occurrence situation with an image of only an accident vehicle and a surrounding vehicle that has collided with the accident vehicle.

DESCRIPTION OF SYMBOLS 1 ... Drive recorder system, 100 ... Drive recorder apparatus, 110 ... Recorder control part, 111 ... Accident occurrence judgment part (accident occurrence judgment processing means), 113 ... Recording control part (recording processing means), 115 ... Notification processing part (notification) Processing means), 120 ... data recording unit, 131 ... airbag ECU, 132 ... ABS ECU, 133 ... door control ECU, 134 ... engine ECU, 135 ... meter ECU, 136 ... camera ECU, 137 ... navigation ECU, 138 ... air conditioner ECU , 141 ... wide area wireless communication device (vehicle-side wireless communication device), 142 ... inter-vehicle communication device (vehicle-side wireless communication device), 143 ... road-to-vehicle communication device (vehicle-side wireless communication device), 150 ... in-vehicle network (CAN network) ), 200... Roadside machine, 210... ... road side machine side communication part, 300 ... vehicle management center, 310 ... center control part, 311 ... report processing part, 313 ... data collection processing part, 315 ... video reproduction part (reproduction processing means), 320 ... center side communication part, Co ... Telecommunications carrier, Ho ... Hospital, In ... Insurance company, Po ... Police station, Ro ... Road operator, C ... Vehicle, A11, A21 ... Accident vehicle, A12, A22 ... Surrounding vehicle.

Claims (7)

A drive recorder system that includes a drive recorder device mounted on a vehicle and a vehicle management center that collects data from the drive recorder device via a communication line,
The drive recorder device includes a vehicle-mounted control device that acquires position information of a vehicle, acquires internal time information, and detects a location where the vehicle body is impacted, a vehicle-side wireless communication device that performs wireless communication, and these vehicle-mounted controls. And a vehicle-mounted network to which a vehicle-side wireless communication device is connected, and the drive recorder device is also connected to the vehicle-mounted network.
A record that sequentially acquires travel history data including vehicle position information, internal time information, and data indicating a location where the vehicle body has been impacted from the in-vehicle control device via the in-vehicle network and records it in a data recording unit. Processing means;
An accident occurrence determination processing means for determining whether or not a traffic accident involving the vehicle has occurred based on whether or not the travel history data includes data indicating a location where the vehicle body has been impacted;
An accident notifying that a traffic accident has occurred and that includes traffic accident occurrence time information and traffic accident occurrence location information based on the fact that the accident occurrence determination processing means has determined that a traffic accident involving the vehicle has occurred. Notification processing means for transmitting a notification signal by the vehicle-side wireless communication device;
Data history processing data recorded in the data recording unit, and data transmission processing means for transmitting vehicle specification data for specifying the vehicle rating of the vehicle by the vehicle-side wireless communication device,
The vehicle management center
A center side communication device for receiving the accident notification signal, travel history data, vehicle case identification data,
Based on the fact that the center side communication device has received the accident notification signal, the travel history data of the surrounding vehicles and the surrounding vehicles are obtained from the surrounding vehicles located around the traffic accident occurrence location at the time of the traffic accident occurrence. Data collection processing means for collecting the vehicle history specifying data and collecting the travel history data and the vehicle specification specific data transmitted from the vehicle-side wireless communication device by the processing of the data transmission processing means,
Among the data collected by the data collection processing means, at least from the travel history data of the accident vehicle that is the vehicle that transmitted the accident notification signal and the surrounding vehicles that collided with the accident vehicle, and the vehicle qualification data of those vehicles on the basis of the determined car price, the occurrence of traffic accidents have a and a reproduction processing means for reproducing by the video,
The reproduction processing means has determined that a traffic accident has occurred in which a plurality of accident vehicles have received shocks several times on the basis of internal time information included in the travel history data collected by the data collection processing means. In some cases, the occurrence of a traffic accident is reproduced on the video after matching the time points of the impacts so that the elapsed times between the impacts received by the bodies of the multiple accident vehicles are the same. A drive recorder system characterized by that. A drive recorder system that includes a drive recorder device mounted on a vehicle and a vehicle management center that collects data from the drive recorder device via a communication line,
The drive recorder device includes a vehicle-mounted control device that acquires position information of a vehicle, acquires internal time information, and detects a location where the vehicle body is impacted, a vehicle-side wireless communication device that performs wireless communication, and these vehicle-mounted controls. And a vehicle-mounted network to which a vehicle-side wireless communication device is connected, and the drive recorder device is also connected to the vehicle-mounted network.
A record that sequentially acquires travel history data including vehicle position information, internal time information, and data indicating a location where the vehicle body has been impacted from the in-vehicle control device via the in-vehicle network and records it in a data recording unit. Processing means;
An accident occurrence determination processing means for determining whether or not a traffic accident involving the vehicle has occurred based on whether or not the travel history data includes data indicating a location where the vehicle body has been impacted;
An accident notifying that a traffic accident has occurred and that includes traffic accident occurrence time information and traffic accident occurrence location information based on the fact that the accident occurrence determination processing means has determined that a traffic accident involving the vehicle has occurred. Notification processing means for transmitting a notification signal by the vehicle-side wireless communication device;
Data history processing data recorded in the data recording unit, and data transmission processing means for transmitting vehicle specification data for specifying the vehicle rating of the vehicle by the vehicle-side wireless communication device,
The vehicle management center
A center side communication device for receiving the accident notification signal, travel history data, vehicle case identification data,
Based on the fact that the center side communication device has received the accident notification signal, the travel history data of the surrounding vehicles and the surrounding vehicles are obtained from the surrounding vehicles located around the traffic accident occurrence location at the time of the traffic accident occurrence. Data collection processing means for collecting the vehicle history specifying data and collecting the travel history data and the vehicle specification specific data transmitted from the vehicle-side wireless communication device by the processing of the data transmission processing means,
Among the data collected by the data collection processing means, at least from the travel history data of the accident vehicle that is the vehicle that transmitted the accident notification signal and the surrounding vehicles that collided with the accident vehicle, and the vehicle qualification data of those vehicles Reproduction processing means that reproduces the occurrence of traffic accidents with video based on the fixed car case,
A roadside machine having a time processing means for measuring the reference time is provided.
The drive recorder device is mounted on a vehicle including a road-to-vehicle communication device that performs wireless communication with a roadside device as the vehicle-side wireless communication device,
The recording processing means records the reference time information as travel history data in the data recording unit based on the reception of the reference time information by the road-to-vehicle communication device,
The reproduction processing means reproduces a traffic accident occurrence situation on a video based on not only internal time information but also reference time information included in the travel history data collected by the data collection processing means. Drive recorder system. In the drive recorder system according to claim 1 or 2 ,
The drive recorder device includes a vehicle control device that controls the running of the vehicle, and the vehicle control device is mounted on a vehicle connected to the in-vehicle network,
The recording processing means records driving control information as driving history data in a data recording unit. In the drive recorder system according to any one of claims 1 to 3 ,
Installed at the intersection with traffic lights, equipped with roadside equipment to acquire lighting information of traffic lights,
The drive recorder device is mounted on a vehicle including a road-to-vehicle communication device that performs wireless communication with a roadside device as the vehicle-side wireless communication device,
The drive processing system according to claim 1, wherein the recording processing unit records lighting information as travel history data in the data recording unit based on reception of lighting information by the road-to-vehicle communication device. In the drive recorder system according to any one of claims 1 to 4 ,
The reproduction processing means reproduces a traffic accident occurrence state by 3D animation. In the drive recorder system according to any one of claims 1 to 5 ,
A roadside machine connected to the vehicle management center,
The drive recorder device is mounted on a vehicle including a vehicle-to-vehicle communication device that performs wireless communication with another vehicle and a road-to-vehicle communication device that performs wireless communication with a roadside device as the vehicle-side wireless communication device. And
The notification processing means transmits the accident notification signal to a vehicle management center via a surrounding vehicle and a roadside machine. In the drive recorder system according to any one of claims 1 to 6 ,
The vehicle management center reports the traffic accident occurrence time information and the traffic accident occurrence location information to at least one of the police, the hospital, and the road operator based on the accident notification signal received by the center side communication device. A drive recorder system comprising a notification processing means.

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