WO2017179182A1

WO2017179182A1 - Drive recorder captured image transmitting system, drive recorder captured image transmitting method and program

Info

Publication number: WO2017179182A1
Application number: PCT/JP2016/062075
Authority: WO
Inventors: 俊二菅谷
Original assignee: 株式会社オプティム
Priority date: 2016-04-15
Filing date: 2016-04-15
Publication date: 2017-10-19
Also published as: JPWO2017179182A1; JP6532600B2

Abstract

[Problem] To provide a drive recorder captured image transmitting system, a drive recorder captured image transmitting method, and a program which improve convenience by eliminating the need for a user to bring, to an accident-related facility, a recording medium or the like in which information about a drive recorder has been recorded. [Solution] This drive recorder captured image transmitting system 1, which transmits a captured image that has been captured during an accident by a drive recorder 100 provided in a vehicle, detects a shock that has occurred in the vehicle and transmits the captured image to an accident-related facility when the shock is detected.

Description

Drive recorder captured image transmission system, drive recorder captured image transmission method, and program

The present invention relates to a drive recorder captured image transmission system, a drive recorder captured image transmission method, and a program for transmitting a captured image captured by a drive recorder provided in a vehicle in the event of an accident.

In recent years, a drive recorder has been installed in a vehicle, and this drive recorder can record the time, position, forward image, acceleration, turn signal operation, brake operation, etc., about 10 and several seconds before and after a major impact on the vehicle such as an accident. It has been broken. The drive recorder information recorded in this way is stored in an external device.

As such a configuration, a configuration in which information recorded by a drive recorder is stored in an online storage, an external server, or the like is disclosed (see Patent Document 1).

Japanese Patent Laid-Open No. 2015-210775

However, in the configuration of Patent Document 1, when the information recorded by the drive recorder is used to investigate the cause of an accident in an accident-related facility that is a facility related to an accident such as a police station, a fire department, or a medical institution, It was necessary to bring the recording media on which information was recorded to accident related facilities. Therefore, the convenience for the user is low.

SUMMARY OF THE INVENTION An object of the present invention is to eliminate the need for a user to bring a recording medium or the like in which information on the drive recorder is recorded in an accident-related facility, and to improve convenience, a drive recorder captured image transmission system, a drive recorder captured image transmission method, and a program The purpose is to provide.

The present invention provides the following solutions.

The invention according to the first feature is a drive recorder captured image transmission system that transmits a captured image captured by a drive recorder provided in a vehicle at the time of an accident,
An impact detection means for detecting an impact occurring in the vehicle;
When the impact is detected, captured image transmission means for transmitting the captured image to a facility related to the accident;
A drive recorder picked-up image transmission system is provided.

According to the first aspect of the invention, a drive recorder captured image transmission system that transmits a captured image captured by a drive recorder provided in a vehicle at the time of an accident detects an impact that has occurred in the vehicle, and the impact is If detected, the captured image is transmitted to a facility related to the accident.

Here, although the invention according to the first feature is a category of the drive recorder captured image transmission system, the same operation and effect corresponding to the category are exhibited in other categories such as a method or a program.

The invention according to the second feature is an approval means for obtaining approval from the user of the drive recorder whether the captured image may be transmitted to a facility related to the accident,
Further comprising
The captured image transmission means transmits the captured image when the approval is obtained.
A drive recorder picked-up image transmission system which is an invention according to the first feature is provided.

According to the second aspect of the invention, the drive recorder captured image transmission system according to the first aspect of the invention may transmit the captured image to a facility related to the accident to a user of the drive recorder. If the approval is obtained and the approval is obtained, the captured image is transmitted.

In the invention according to the third feature, the captured image transmission means transmits the captured image when the detected impact value is equal to or greater than a predetermined threshold.
A drive recorder picked-up image transmission system which is an invention according to the first feature is provided.

According to the third aspect of the invention, the drive recorder picked-up image transmission system according to the first aspect of the invention is configured to display the picked-up image when the detected impact value is equal to or greater than a predetermined threshold. ,Send.

In the invention according to the fourth feature, the captured image transmission means extracts the captured images before and after the detected impact timing, and transmits the extracted captured images.
A drive recorder picked-up image transmission system which is an invention according to the first feature is provided.

According to the fourth aspect of the invention, the drive recorder picked-up image transmission system according to the first aspect of the invention extracts the picked-up images before and after the detected impact timing, and extracts the picked-up picked-up images. ,Send.

In the invention according to a fifth aspect, the captured image transmission means transmits the captured image, attribute information registered in the drive recorder, and position information of the drive recorder.
A drive recorder picked-up image transmission system which is an invention according to the first feature is provided.

According to the fifth aspect of the invention, the drive recorder captured image transmission system according to the first aspect of the invention includes the captured image, the attribute information registered in the drive recorder, and the position information of the drive recorder. Send.

In the invention according to the sixth aspect, the facility related to the accident is a police station, a fire department or a hospital.
A drive recorder picked-up image transmission system which is an invention according to the first feature is provided.

According to the sixth aspect of the invention, the facility related to the accident is a police station, a fire department or a hospital.

The invention according to a seventh aspect is a drive recorder captured image transmission method for transmitting a captured image captured by a drive recorder provided in a vehicle at the time of an accident,
Detecting an impact occurring in the vehicle;
Transmitting the captured image to a facility related to an accident when the impact is detected;
The drive recorder picked-up image transmission method characterized by comprising.

The invention according to the eighth feature provides a drive recorder captured image transmission system that transmits a captured image captured by a drive recorder provided in a vehicle at the time of an accident.
Detecting an impact occurring in the vehicle;
Transmitting the captured image to a facility associated with an accident when the impact is detected;
A program characterized in that is executed is provided.

ADVANTAGE OF THE INVENTION According to this invention, the drive recorder imaged image transmission system, the drive recorder imaged image transmission method, and program which improved the convenience which the user did not have to bring in the recording medium etc. which recorded the information of the drive recorder in the accident related facility Can be provided.

FIG. 1 is a diagram showing an outline of a drive recorder captured image transmission system 1. FIG. 2 is an overall configuration diagram of the drive recorder captured image transmission system 1. FIG. 3 is a functional block diagram of the server 10, the drive recorder 100, and the information terminal 200. FIG. 4 is a flowchart illustrating captured image transmission processing executed by the server 10, the drive recorder 100, and the information terminal 200. FIG. 5 is an accident-related facility database. FIG. 6 is a terminal arrangement database. FIG. 7 is a diagram showing an accident occurrence position screen displayed on the information terminal 200.

Hereinafter, the best mode for carrying out the present invention will be described with reference to the drawings. This is merely an example, and the technical scope of the present invention is not limited to this.

[Overview of Drive Recorder Image Transmission System 1]
An outline of a preferred embodiment of the present invention will be described with reference to FIG. FIG. 1 is a diagram for explaining an overview of a drive recorder captured image transmission system 1 which is a preferred embodiment of the present invention. The drive recorder captured image transmission system 1 includes a server 10, a drive recorder 100, and an information terminal 200.

In FIG. 1, the drive recorder 100 and the information terminal 200 are not limited to one and may be plural. Moreover, each process mentioned later may be implement | achieved by the server 10, the drive recorder 100, the information terminal 200, or the combination of several.

The server 10 is a server device capable of data communication with the drive recorder 100 and the information terminal 200.

The drive recorder 100 is an in-vehicle camera device that is mounted on a vehicle and stores a predetermined time, position, front image, acceleration, turn signal operation, brake operation, and the like before and after an impact is applied to the vehicle. The drive recorder 100 captures an image such as a moving image or a still image as a front image, and stores the captured image. The drive recorder 100 is an in-vehicle camera device capable of data communication with the server 10 and the information terminal 200. The drive recorder 100 is not limited to before and after an impact is applied, and may be configured to always capture images and store captured images and the like.

The information terminal 200 is a terminal device that is arranged in an accident-related facility that is a facility related to an accident such as a police station, a fire department, or a medical institution, and is capable of data communication with the server 10 and the drive recorder 100. The information terminal 200 is, for example, a mobile phone, a portable information terminal, a tablet terminal, a personal computer, an electronic product such as a netbook terminal, a slate terminal, an electronic book terminal, a portable music player, a smart glass worn by an operator, It is a wearable terminal such as a head-mounted display, and other articles.

In this embodiment, by transmitting the captured image of the drive recorder 100 to the information terminal 200 arranged in the accident-related facility, the captured image of the drive recorder 100 can be transmitted to the accident-related facility.

First, the drive recorder 100 provided in the vehicle captures an image such as a moving image or a still image in front of the installation location (step S01). Prior to step S01, the drive recorder 100 asks the user to approve in advance whether or not to send the captured image data of the captured image to an accident-related facility such as a police station, a fire department, or a medical institution. If obtained, the configuration for executing the processing described later may be used. At this time, not only the captured image data but also extracted data obtained by extracting a part of the captured image data in a predetermined period before and after the occurrence of the accident, user information such as the user's name, and the vehicle Drive of attribute data such as attribute information that is vehicle information such as number and vehicle type, position data of own position information acquired from GPS, etc., and driving data that is information related to driving such as acceleration, turn signal operation, brake operation, etc. A configuration may be employed in which approval for transmitting data is obtained, and processing described later is executed when the approval is obtained.

When the drive recorder 100 detects an impact, the drive recorder 100 transmits the captured image data to the server 10 (step S02). The drive recorder 100 may be configured to transmit captured image data to the server 10 when the detected impact is equal to or greater than a predetermined threshold. The drive recorder 100 may be configured to transmit drive data such as extraction data before and after an impact is detected, attribute data, position data, and operation data.

The server 10 receives and stores the received captured image data. The server 10 transmits this captured image data to the information terminal 200 arranged in the accident-related facility (step S03). The drive recorder 100 may be configured to transmit the extracted data directly to the information terminal 200 arranged in the accident-related facility without using the server 10.

The above is the outline of the drive recorder captured image transmission system 1.

[System configuration of drive recorder captured image transmission system 1]
Based on FIG. 2, the system configuration of the drive recorder captured image transmission system 1 which is a preferred embodiment of the present invention will be described. FIG. 2 is a diagram showing a system configuration of a drive recorder captured image transmission system 1 which is a preferred embodiment of the present invention. The drive recorder captured image transmission system 1 includes a server 10, a drive recorder 100, an information terminal 200, and a public network (Internet network, third and fourth generation communication network, etc.) 5. Note that the drive recorder 100 or the information terminal 200 is not limited to one and may be plural. Moreover, each process mentioned later may be implement | achieved by the server 10, the drive recorder 100, the information terminal 200, or the combination of several.

The server 10 is the server device described above having the functions described below.

The drive recorder 100 is the above-described on-vehicle camera device having the functions described later.

The information terminal 200 is the above-described terminal device having the functions described below.

[Description of each function]
Based on FIG. 3, the function of the drive recorder captured image transmission system 1 which is a preferred embodiment of the present invention will be described. FIG. 3 is a functional block diagram of the server 10, the drive recorder 100, and the information terminal 200.

The server 10 includes a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), etc. as the control unit 11, and a device for enabling communication with other devices as the communication unit 12. For example, a WiFi (Wireless Fidelity) compatible device compliant with IEEE 802.11 is provided. The server 10 also includes a data storage unit such as a hard disk, a semiconductor memory, a recording medium, or a memory card as the storage unit 13.

In the server 10, the control unit 11 reads a predetermined program, thereby realizing the data reception module 20 and the data transmission module 21 in cooperation with the communication unit 12. Further, in the server 10, the data storage module 30, the facility specifying module 31, and the terminal specifying module 32 are realized in cooperation with the storage unit 13 by the control unit 11 reading a predetermined program.

As with the server 10, the drive recorder 100 includes a CPU, RAM, ROM, and the like as the control unit 110, and includes a wireless device that enables communication with other devices as the communication unit 120, and serves as the storage unit 130. A data storage unit, as the input / output unit 140, a display unit for outputting and displaying data and images controlled by the control unit 110, an input unit such as a touch panel, a keyboard, and a mouse for receiving input from an operator, It includes a device that captures an image such as a still image or a moving image in front, a device such as a sensor that detects an impact, a device that acquires its position information from GPS, and the like.

In the drive recorder 100, when the control unit 110 reads a predetermined program, the data transmission module 150 is realized in cooperation with the communication unit 120. Further, in the drive recorder 100, the data storage module 160 and the data extraction module 161 are realized in cooperation with the storage unit 130 by the control unit 110 reading a predetermined program. In the drive recorder 100, the control unit 110 reads a predetermined program, thereby realizing the approval receiving module 170, the imaging module 171 and the impact detection module 172 in cooperation with the input / output unit 140.

As with the drive recorder 100, the information terminal 200 includes a CPU, RAM, ROM, and the like as the control unit 210, and includes a wireless device and the like for enabling communication with other devices as the communication unit 220, and a storage unit 230. As a data storage unit, the input / output unit 240 includes a display unit, an input unit, a device that acquires its own position information from the GPS, and the like.

In the information terminal 200, the data reception module 250 is realized in cooperation with the communication unit 220 by the control unit 210 reading a predetermined program. Further, in the information terminal 200, the control unit 210 reads a predetermined program, thereby realizing the data storage module 260 in cooperation with the storage unit 230. In the information terminal 200, when the control unit 210 reads a predetermined program, the display module 270 is realized in cooperation with the input / output unit 240.

[Captured image transmission processing]
Based on FIG. 4, a captured image transmission process executed by the server 10, the drive recorder 100, and the information terminal 200 will be described. FIG. 4 is a diagram illustrating a flowchart of captured image transmission processing executed by the server 10, the drive recorder 100, and the information terminal 200. The processing executed by the modules of each device described above will be described together with this processing.

The approval receiving module 170 is a captured image data indicating a captured image captured by itself, extracted data obtained by extracting a part of the captured image data, user information such as a user name and telephone number registered in advance, and the drive recorder 100. Recorder information such as identifier, serial number, name, etc., attribute data indicating attribute information indicating vehicle information such as the number and model of the vehicle on which it is installed, position data being own position information acquired from GPS, Approval for transmitting drive data such as driving data, which is information related to driving such as acceleration, winker operation, and brake operation, is requested, and it is determined whether or not approval has been obtained (step S10). In step S10, the approval receiving module 170 determines whether approval has been obtained by receiving an input of approval or rejection by voice input from the user or input from a keyboard, a touch panel, or the like. In step S10, the approval receiving module 170 receives an approval or rejection input by receiving an approval or rejection instruction input from a user terminal (not shown) possessed by the user, and whether or not the approval has been obtained. Determine whether. In step S10, the approval receiving module 170 may execute a determination as to whether approval has been obtained by a configuration other than the configuration described above.

The drive recorder 100 may omit the process in step S10 and execute the processes in and after step S11. In this case, the drive recorder 100 executes each process to be described later assuming that approval has been obtained.

If the approval receiving module 170 determines in step S10 that the approval has not been received (NO in step S10), the process ends, the process described later is not executed, and the drive recorder 100 stores the drive data in itself. To do.

On the other hand, if the approval receiving module 170 determines in step S10 that the approval has been received (YES in step S10), each process described later is executed.

The imaging module 171 captures an image in front of the installation location as a captured image (step S11).

The data storage module 160 includes captured image data of a captured image captured by the imaging module 171, position data of position information related to the current position acquired by the drive recorder 100 from the GPS or the like, acceleration, a blinker operation, a brake operation, and the like. Drive data in which operation data of information related to the user's operation is associated with time data indicating the current date and time is stored (step S12). In step S12, the data storage module 160 may be configured to exclude the driving data and store the captured image data and the position data in association with each other, or store only the captured image data. Also good. In step S12, the data storage module 160 may store information other than the information described above as operation data.

The impact detection module 172 determines whether or not an impact has been detected (step S13). In step S <b> 13, the impact detection module 172 detects an impact based on the reaction of the impact sensor provided in the drive recorder 100. In step S13, the impact detection module 172 determines that the impact is not detected when no impact is received (NO in step S13), and repeats the process of step S11.

On the other hand, in step S13, when the impact detection module 172 detects an impact (step S13: YES), the impact detection module 172 determines whether the detected impact is equal to or greater than a predetermined threshold (step S14). In step S <b> 14, the predetermined threshold is, for example, a value indicating an impact at which a part or all of the vehicle is damaged, a value indicating an impact at which traveling of the vehicle is difficult, and the like. Note that the predetermined threshold may be other conditions, other numerical values, or the like.

In step S14, when the impact detection module 172 determines that it is not equal to or greater than the predetermined threshold (step S14 NO), the process of step S11 is repeated. On the other hand, when the impact detection module 172 determines in step S14 that it is equal to or greater than the predetermined threshold (YES in step S14), the data extraction module 161 determines the drive data in a predetermined period before and after the date and time when this impact was detected. And the extracted drive data is extracted as extracted drive data (step S15). In step S15, the predetermined period before and after is, for example, 1 minute before and after, several tens of seconds before and after, and several minutes before and after. In step S15, the extracted drive data includes captured image data, operation data, and position data for a predetermined period. Note that the predetermined period before and after may be a period other than the example described above, for example, may be 1 minute, several tens of seconds, or several minutes between the detection time point and the detection time point. Not limited to.

The data transmission module 150 transmits record data including the extracted drive data and the attribute data described above to the server 10 (step S16).

The data receiving module 20 receives the record data transmitted by the drive recorder 100. The data storage module 30 stores record data (step S17). In step S <b> 17, the server 10 analyzes the accident content that is the cause of the impact based on the extracted drive data included in the record data, and stores the analyzed result in the record data. The server 10 analyzes the extracted drive data as an analysis of the accident contents, and whether the extracted drive data includes a person, whether an object such as a utility pole or a guardrail, or a vehicle is included. The information of the accident is acquired and the contents of the accident are judged. Note that the server 10 may perform analysis of the accident content using a configuration other than the configuration described above.

The facility identification module 31 identifies an accident-related facility based on the position information included in the record data (step S18). In step S18, the facility specifying module 31 specifies the nearest accident-related facility based on, for example, the position information included in the record data and the map data stored in advance by the data storage module 30. In step S18, the facility specifying module 31 specifies the accident related facility nearest to the accident site based on, for example, position information included in the record data and an accident related facility database described later. In step S18, the facility identification module 31 analyzes the accident content based on, for example, the extracted drive data included in the record data, and identifies each of the nearest police station, fire station, and medical institution as the accident-related facility. Identify.

[Accident-related facility database]
The accident related facility database stored in the data storage module 30 will be described with reference to FIG. FIG. 5 is a diagram showing an accident-related facility database stored in the data storage module 30. In FIG. 5, the data storage module 30 stores accident-related facilities and location information in association with each other. Accident-related facilities are names of public facilities such as police stations, fire stations, and medical institutions. The location information is information on the location where the accident-related facility exists. The accident-related facilities and location information stored in the data storage module 30 are not limited to the number and type of this embodiment, and can be changed as appropriate. Further, the data storage module 30 may store an address as the position information, or may store other information such as a telephone number and a person in charge in addition to the accident-related facility and the position information. Good.

In step S18, the facility identification module 31 extracts the nearest accident-related facility by referring to the location information in the accident-related facility database based on the location information included in the record data. The facility identification module 31 extracts accident-related facilities associated with the extracted nearest position information. As a result, the facility identification module 31 identifies an accident-related facility. The facility identification module 31 may identify the nearest accident-related facility for each facility of the police station, the fire station, and the medical institution. Further, the number of accident related facilities specified by the facility specifying module 31 is not limited to one accident related facility, and may be plural. In this case, each process described later may be executed on the information terminal 200 arranged in each of the plurality of accident-related facilities. Further, the facility identification module 31 may identify an accident-related facility by another method.

The terminal identification module 32 identifies the information terminal 200 that transmits the record data based on the identified accident-related facility (step S19). In step S19, the terminal identification module 32 identifies the information terminal 200 to which the server 10 transmits record data based on the terminal arrangement database.

[Terminal location database]
Based on FIG. 6, the terminal arrangement database stored in the data storage module 30 will be described. FIG. 6 is a diagram showing a terminal arrangement database stored in the data storage module 30. In FIG. 6, the data storage module 30 stores the accident-related facility and the identification number of the information terminal 200 arranged in the accident-related facility in association with each other. The accident-related facility has the same configuration as the accident-related facility database described above. The identification number is an identifier for identifying the information terminal 200, and is set for each information terminal 200 arranged in the accident-related facility. The accident-related facilities and identification numbers stored in the data storage module 30 are not limited to the number and type of the present embodiment, and can be changed as appropriate. The data storage module 30 may store other identifiers instead of identification numbers, or may store a plurality of information terminals 200 associated with one accident-related facility. .

In step S19, the terminal identification module 32 extracts the accident-related facility by referring to the terminal arrangement database based on the identified accident-related facility. The terminal identification module 32 extracts the identification number of the information terminal 200 associated with the extracted accident-related facility. As a result, the terminal specifying module 32 specifies the information terminal 200 arranged in the accident related facility specified in step S18.

The data transmission module 21 transmits record data to the identified information terminal 200 (step S20).

The data receiving module 250 receives the record data transmitted by the server 10. The data storage module 260 stores the received record data (step S21).

The display module 270 displays an accident occurrence position screen triggered by receiving an input or record data from the administrator of the information terminal 200 (step S22).

FIG. 7 is a diagram showing an accident occurrence position screen displayed by the display module 270. In FIG. 7, the display module 270 displays a map 300. The display module 270 displays the map 300 based on map data acquired from the outside by the information terminal 200, map data stored by the information terminal 200, and the like. The display module 270 superimposes on the map 300 a current location icon 310 indicating its current location, a destination icon 320 indicating the location of the accident, a route 330 indicating the route from the current location to the location of the accident, and an accident content display area 340. indicate. The display module 270 displays the current location icon 310 on the map based on its own location information acquired from GPS or the like. The display module 270 displays the destination icon 320 on the map based on the position information included in the record data. The display module 270 searches for a movement route from the current location to the accident occurrence position based on the current location and the accident occurrence position, and displays the searched movement route as a route 330. The display module 270 displays the accident occurrence date and time and the accident type in the accident content display area 340 based on the accident content of the record data.

Note that the current position icon 310, the destination icon 320, the route 330, the display position of the accident content display area 340, the display mode, and the like displayed by the display module 270 can be changed as appropriate. In addition, the display module 270 may display only one of the current location icon 310, the destination icon 320, the route 330, and the accident content display area 340, or there may be a configuration that does not display. The information displayed on the accident content display area 340 by the display module 270 may be information other than the information described above, or may be any of the information described above. Further, the display module 270 may display a configuration other than the display contents described above.

Further, the process of step S22 may be omitted. In this case, when an input operation from the information terminal 200 is received, the accident occurrence position screen described above may be displayed based on the stored record data.

The above is the captured image transmission processing.

The drive recorder 100 and the information terminal 200 may be configured to execute the captured image transmission process described above. In this case, each process executed by the server 10 may be executed by either or both of the drive recorder 100 and the information terminal 200.

The means and functions described above are realized by a computer (including a CPU, an information processing apparatus, and various terminals) reading and executing a predetermined program. The program is provided in a form recorded on a computer-readable recording medium such as a flexible disk, CD (CD-ROM, etc.), DVD (DVD-ROM, DVD-RAM, etc.). In this case, the computer reads the program from the recording medium, transfers it to the internal storage device or the external storage device, stores it, and executes it. The program may be recorded in advance in a storage device (recording medium) such as a magnetic disk, an optical disk, or a magneto-optical disk, and provided from the storage device to a computer via a communication line.

As mentioned above, although embodiment of this invention was described, this invention is not limited to these embodiment mentioned above. The effects described in the embodiments of the present invention are only the most preferable effects resulting from the present invention, and the effects of the present invention are limited to those described in the embodiments of the present invention. is not.

1 Drive recorder image transmission system, 10 server, 100 drive recorder, 200 information terminal

Claims

A drive recorder captured image transmission system that transmits a captured image captured by a drive recorder provided in a vehicle at the time of an accident,
An impact detection means for detecting an impact occurring in the vehicle;
When the impact is detected, captured image transmission means for transmitting the captured image to a facility related to the accident;
A drive recorder picked-up image transmission system comprising:
An approval means for obtaining approval from the user of the drive recorder as to whether or not the captured image may be transmitted to a facility related to the accident;
Further comprising
The captured image transmission means transmits the captured image when the approval is obtained.
The drive recorder captured image transmission system according to claim 1.
The captured image transmission means transmits the captured image when the detected impact value is equal to or greater than a predetermined threshold.
The drive recorder captured image transmission system according to claim 1.
The captured image transmission means extracts the captured images before and after the detected impact timing, and transmits the extracted captured images.
The drive recorder captured image transmission system according to claim 1.
The captured image transmission means transmits the captured image, attribute information registered in the drive recorder, and position information of the drive recorder.
The drive recorder captured image transmission system according to claim 1.
The facility related to the accident is a police station, a fire station or a hospital.
The drive recorder captured image transmission system according to claim 1.
A drive recorder captured image transmission method for transmitting a captured image captured by a drive recorder provided in a vehicle at the time of an accident,
Detecting an impact occurring in the vehicle;
Transmitting the captured image to a facility related to an accident when the impact is detected;
A drive recorder picked-up image transmission method comprising:
In a drive recorder captured image transmission system that transmits a captured image captured by a drive recorder provided in a vehicle at the time of an accident,
Detecting an impact occurring in the vehicle;
Transmitting the captured image to a facility associated with an accident when the impact is detected;
A program characterized by having executed.