KR20170074149A - Montoring system of car video networking to get real-time videos from a lot of vehicles and operating method thereof - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a vehicle black box network configuration in which black box image information of a vehicle traveling all over the country can be viewed in real time. Among the black boxes, a black box having a short-range communication means (Wi-Fi, Bluetooth, millimeter wave communication) and a mobile communication device having a driver of the vehicle equipped with the black box are interlocked with each other. The control unit can request the provision of the image at any time by the mobile communication device as needed. When the driver approves the video access, the control unit can view the video information of the black box.

Description

Technical Field [0001] The present invention relates to an online collection and monitoring apparatus for black box image information,

The present invention relates to an apparatus and method for collecting and monitoring networked image information, and more particularly to an apparatus and method for online collection and monitoring of black box image information capable of collecting and monitoring image information provided from a plurality of vehicles in real time, ≪ / RTI >

Vehicles such as passenger cars and commercial vehicles are often equipped with black boxes that store image information outside the vehicle.

Image information stored in a black box for automobiles is mostly utilized for accident or crime detection purposes. However, identification of stored video information can often be performed after an accident or crime has occurred. That is, the image information stored in the memory of the vehicle black box is read through the offline method.

The image information of the vehicle black box includes an accident situation and surrounding vehicle / passenger information. In addition, the image information of the vehicle black box contains a lot of useful information such as real-time traffic situation, real-time vehicle tracking, and vehicle information while traveling in the direction of travel and the opposite direction. Such useful information can be a resource that can be utilized in a timely manner.

Generally, in CCTV systems, only CCTVs are installed at major points. Therefore, the CCTV system is relatively vulnerable to the real-time traffic situation of the suburbs or the blind spot, the security of the vehicle, and the vehicle tracking. In addition, if the number of installed CCTVs increases, the cost of operating the system increases.

An object of the present invention is to provide an online collection and monitoring apparatus for black box image information and an operation method thereof, which can collect and confirm black box image information provided from vehicles in real time.

According to an embodiment of the concept of the present invention, an apparatus for online collection and monitoring of black box image information is provided for a mobile communication device capable of short distance communication with a black box installed in a vehicle, And the number of mobile communication devices) through the mobile communication network. Wherein the control unit broadcasts explanatory information to the mobile communication network and receives a participant response related to the explanatory information from the mobile communication device when the monitoring event occurs and then transmits the position information of the black box in the vehicle to the mobile communication device And selecting the target vehicles based on the collected location information, requesting the mobile communication devices corresponding to the corresponding black boxes to provide images, and transmitting location information and image information provided from the corresponding black boxes In real time via the mobile communication network.

According to another aspect of the present invention, there is provided a method for online collection and monitoring of black box image information, comprising the steps of: broadcasting descriptive information to a plurality of mobile communication devices by a control unit; ≪ / RTI > Also, the on-line collection and monitoring method of the black box image information collects the position information of the in-vehicle black boxes performing short-range communication corresponding to the plurality of mobile communication devices through the mobile communication devices, Requesting an image for mobile communication devices corresponding to the corresponding black boxes based on the location information, providing the at least one target vehicles from the black boxes corresponding to the requested mobile communication devices And receiving the location information and the image information through the mobile communication devices.

In addition, according to an embodiment of the present invention, an on-line acquisition and monitoring apparatus for video information received in real time is provided with a dedicated application for transmitting image information obtained through a camera, (Where N is a natural number equal to or greater than 2 and the number of mobile communication devices) connected to the control unit through a mobile communication network, and data storage for storing operation data of the control unit and image information of the mobile communication device .

Wherein the control unit broadcasts explanatory information to the mobile communication network and receives a participation response related to the explanatory information from the mobile communication device when the monitoring event occurs and collects the location information of the vehicle through the mobile communication device do. The controller selects the target vehicles based on the collected location information, requests the mobile communication devices to provide an image, and receives location information and image information provided from the corresponding mobile communication devices through the mobile communication network .

According to the present invention, the black box image information provided from the vehicles is collected and confirmed in real time by utilizing the installed high-speed mobile communication infrastructure. Therefore, the operation of online collection and monitoring of black box image information can be implemented at a lower cost than the installation and operation of a CCTV system.

According to the present invention, the driver of the vehicle acts as a moving CCTV. If the driver of the vehicle voluntarily participates, the individual contributes to the national public service. Therefore, the self-esteem of the individual can be increased.

In addition, the live broadcast of the video information by the vehicle can be much quicker than the relay by the UAV or satellite. Further, clearer field image information can be provided in real time.

1 is a block diagram of an operating system including an online collection and monitoring device in accordance with an embodiment of the present invention.
2 is an operational control flow chart of the control center according to FIG.
Fig. 3 is a diagram for explaining acquisition of image information of a black box of a vehicle according to Fig. 1. Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram of an operating system including an online collection and monitoring device according to an embodiment of the present invention. Referring to FIG. 1, an operating system includes a vehicle device 100 and an online collection and monitoring device 1000.

The vehicle device 100 may include a black box 101 and a mobile communication device 102.

The on-line collection and monitoring apparatus 1000 includes a control unit 200. The control unit 200 includes a communication unit 210 and a control unit 220.

The online collection and monitoring apparatus 1000 may also include a data storage unit 300. The data storage unit 300 receives the image information of the black box 101 from the control unit 200 and stores the image information on-line.

The operating system may include a user module 400 and a telecommunications company module 500. The user module 400 is connected to the control unit 200 to utilize the image information stored in the data storage unit 300. The communication company module 500 provides a high-speed mobile communication network 510 so that image information can be collected and monitored. The communication company module 500 can perform the charging for use of the mobile communication network 510. [

The mobile communication device 102 in the vehicle device 100 is connected to the communication network 510 via a line L10 which may be a wireless communication network. The control unit 200 is also connected to the communication network 510 via a line L20, which may be a wireless communication network. Therefore, the control unit 200 and the mobile communication device 102 can communicate with each other through the mobile communication network 510. The mobile communication network 510 may be a high-speed mobile communication network of a 3G or higher class provided by the communication company module 500. Therefore, character information, image information, or voice signal can be communicated between the mobile communication device 102 and the control unit 200. [

The control unit 200 can collect, relay, or monitor image information of the black box 101 installed in the vehicle apparatus 100. The control unit 200 can send explanatory information to the vehicles that are traveling or stopping in an area where the video information is desired to be collected. The explanation information may include a signal for inquiring about the area code of interest and the image information providing intention as a kind of call signal. That is, when the call signal is received through the mobile communication device 102, the driver or the passenger may transmit the participation response to the control unit 200. [

In another embodiment of the present invention, a smartphone may be equipped with the functionality of a black box. That is, the smartphone can provide peripheral images and location information (e.g., GPS) from a camera installed in the smart phone. In such a case, regardless of whether the black box 101 is installed in the vehicle apparatus 100, the smart phone may independently perform the provision of the image information. As a result, smart phones provide video information on behalf of CCTV surveillance cameras.

The control unit 200 can receive position information (e.g., vehicle GPS information) included in the participation response message from the mobile communication device 102. [ Here, the participation response message is transmitted by the driver or the passenger of the vehicle. The participation response message is a signal indicating that the image information is allowed to be provided.

The control unit 200 can analyze the received position information and select specific vehicles among the plurality of vehicles as the information providing target vehicle. For example, even if hundreds of people send a participation response, some of the vehicles closest to the monitoring interest area can be selected as the collection vehicle by the control unit 200. Therefore, only the selected vehicles or vehicles receive the image information request signal from the control unit 200. The image information obtained from the black boxes of the selected vehicles or vehicles is streamed in real time via the communication network 510.

The control unit 200 collects the streamed video information through the communication unit 210. More specifically, the control unit 220 can perform the tracking method in multiple ways. The tracking technique includes a task of matching the road and the vehicle traveling direction from the real time GPS information updated periodically. Multiple vehicles can be monitored at the same time by the multiple operation of the tracking method, that is, the multiple tracking method.

The control unit 200 analyzes the image data in real time. The control unit 200 can grasp the type / color / number / direction of the vehicle and the passenger information from the image data. The control unit 200 can perform vehicle switching (emergency switching) or communicate directly with the driver. Direction / trace / evacuation / follow-up can be indicated by the control unit 200 when direct communication is performed.

In the embodiment of the present invention, voluntary / mandatory membership management and management can be performed. By network operation and management, it is possible to configure the network by vehicle type, region and industry. For example, the network between black boxes installed in public transportation (taxi / bus / train / subway) enables linkage with the integrated control unit / CCTV network / traffic situation center by the local government.

Meanwhile, the data storage unit 300 may classify / store real-time image information. The data storage unit 300 may provide image information in response to concurrent requests such as public requests, individual requests, commercial requests, and the like. Also, the data storage unit 300 can provide an online storage space, thereby enabling a cloud service for a vehicle black box. Regularly operated vehicles (taxis, buses) have a short replacement period for black boxes. Accordingly, a cloud service is provided when an online storage space is provided for the always-running vehicle.

Also, in the embodiment of the present invention, the data communication fee may be exempted when the image information is transmitted by the driver voluntarily participating. In addition, an information access management system for preventing privacy invasion needs to be established, and post processing (mute, mosaic, image filtering) according to the security level according to the selection of the video information provider can be selectively or unnecessarily performed.

According to the present invention, a network configuration for connecting a black box, a control unit, a data storage unit, and a service customer is provided at a lower cost than a CCTV establishment network.

In FIG. 1, the black box 101 and the mobile communication device 102 can communicate via short-range communication. The local area communication may be a wireless local area network (WLAN) or a wireless personal area network (WPAN). The WLAN may be a general wireless LAN and the WPAN may be Bluetooth, ZigBee, UWB, or millimeter wave communication.

The transmission frequency band of the UWB is more than several GHz. Ultra-wideband communication (UWB) guarantees speeds of at least 100Mbps ~ 1Gbps compared to 30Mbps ~ 50Mbps wireless LAN. UWB is rated as a technology suitable for transmitting HDTV video because it can transmit 100Mbps data more reliably than WLAN, and power consumption is one tenth of that of WLAN. On the other hand, the reach is about 10m. Although UWB is applied to communication and radar of early military use, it is becoming a major technology of wireless home network as demand for transmission of high-capacity multimedia contents produced by home entertainment devices increases.

The millimeter wave communication has 10 times more data transmission capacity than WLAN or UWB, which is a conventional short distance wireless communication technology, so that instant transmission of super high definition (full HD) uncompressed image can be achieved. The 60GHz band ultra high-speed radio transmission technology standard uses a wide band ranging from 57 to 66GHz of the worldwide millimeter-wave band to as low as 3.5GHz and as much as 7 to 9GHz in total. This communication technology is short-distance wireless communication that enables ultra high-speed video transmission at Gbps. According to millimeter-wave communications, a two-hour movie (about 650Mb) stored on a smartphone can be transferred to another person's mobile phone within 10m in just one second, enabling high-quality video streaming without transmission delay or deterioration in image quality. The ISO / IEC 13156 standard classifies into three types of specifications: minimum power consumption, streaming service specification, communication distance, and maximum data transmission rate. It enables the optimum design of the device.

Therefore, when the Bluetooth module 3.0 is installed in the black box 101, the Bluetooth communication module 102, which can be a smart phone, must be equipped with the Bluetooth module to enable short range communication using the Bluetooth protocol.

In the embodiment of the present invention, the vehicle device 100 is provided with a public WiFi AP or Low Power Broadcasting or a video information relay for locally sharing the video information of the black box 101 Hot Spot function can be added.

In another embodiment of the present invention, the image information of the black box 101 may be provided to the control unit 200 through the mobile communication device 102, but may be transmitted to the local communication network 102 without the mobile communication device 102 And may be directly provided to the communication network 510 connected thereto.

Meanwhile, the mobile communication device 102 is a portable terminal capable of connecting to a high-speed mobile communication network of 3G or higher for relaying black-box image information. The mobile communication device 102 is provided with a dedicated application (hereinafter referred to as "application") as software for collecting and monitoring black box image information. In the case where the dedicated application is installed, the mobile communication device 102 can receive explanatory information (message) related to the collection and monitoring of the video information from the control unit 200 during the movement of the vehicle, May be selected by the driver or the user of the mobile communication device 102. [ In addition, when a specific function button of the mobile communication device 102 is pressed or a specific point of the display screen is touched at the time of participation, the image information provided from the black box 101 can be relayed to the control unit 200 . 1, a line L2 from the mobile communication device 102 to the black box 101 means a short-range wireless communication request for requesting the provision of an image, and a line from the black box 101 to the mobile communication device 102 (L1) represents wireless transmission of image information.

Similarly, the lines L30, L32, and L34 between the control unit 200 and the data storage unit 300 are used for transmission for storing image information, transmission of commands or response signals for transmission and reception of image information, Each of which indicates the reception of the packet.

The lines L50 and L52 between the control unit 200 and the user module 400 are paths that respectively indicate a request for image information to use necessary image information and a reception of necessary image information.

The lines L60 and L62 between the user module 400 and the communication company module 500 are the paths that respectively indicate the permission to use the communication network and the request to use the communication network for collecting and monitoring the image information.

A line L66 from the communication company module 500 to the communication network 510 is a path for indicating driving control of a communication network for collecting and monitoring image information.

In addition, a line L64 between the communication company module 500 and the control unit 200 is a path for indicating an operation request and approval for collecting and monitoring image information and various controls accordingly.

In the embodiment of the present invention, a black box having a short distance communication module and a smart phone having a driver or a passenger of the vehicle are interlocked through an application. The control unit 200 can request the video information to the smartphone at any time as needed. Also, when the driver or passenger of the vehicle approves the image access to the control unit 200, the control unit 200 can collect image information provided from a plurality of vehicles and monitor them in real time. As a result, the operation of a vehicle black box network, which is operated from all over the country and can monitor video information in real time through a vehicle, is implemented. Therefore, various services according to needs are provided at a cost lower than the implementation cost like the CCTV network.

2 is an operational control flow chart of the control center according to FIG. 3 is a diagram for explaining acquisition of image information of a black box of a vehicle according to FIG.

Referring to FIG. 2, in operation S200, the control unit 200 broadcasts explanatory information through the communication network 510. FIG. The description information may include information describing the necessity of a black box image (for example, during escape vehicle tracking, traffic information collection, etc.) together with a region code in a region mobile communication cell of interest. Accordingly, the driver or passenger in the area can select whether to participate by viewing the explanatory information.

If the driver or passenger in the area wishes to provide the image information of his black box 101 and there is a participant response via the mobile communication device 102, the operation S210 is passed. That is, the control unit 200 checks in operation S210 whether or not a participation response is received. When there is a participation response, the control unit 200 collects the location information of the vehicle in operation S220. That is, since the position information of the vehicle, for example, the GPS information, is included in the participation response information when there is a participation response, the current position information of the driver or the occupant's vehicle is collected. As a result, position information of black boxes in the vehicle, which performs short-range communication correspondingly to a plurality of mobile communication devices, is collected through mobile communication devices.

The control unit 200 designates at least one or more target vehicles based on the location information collected in operation S230 and requests the mobile communication devices corresponding to the corresponding black boxes to request an image. That is, when the escape vehicle estimated to be presently in a specific area is tracked, the vehicles closest to the escape vehicle can be designated as the target vehicle. Accordingly, the more participant respondents in the area of interest, the more precise tracking can be achieved than the CCTV construction network. The control unit 200 can grasp the road position in detail by the collected GPS information and request the target vehicle designation and the image.

Accordingly, the control unit 200 can receive the location information and the image information provided from the black boxes corresponding to the requested mobile communication devices through the mobile communication devices in operation S240. That is, the video information and the GPS information that is being changed are transmitted to the control unit 200 in real time. In operation S250, the control unit 200 analyzes the image information and the position information, and measures the corresponding action accordingly. For example, as shown in FIG. 3, when the number of the escape vehicle in the area of interest is identified as the desired number "56 M 1234" to be searched, a message to continue tracking is transmitted to the driver or the occupant's mobile communication device, A local police station or police station will be able to order the arrest of the current escape vehicle. The message may be live and may also indicate evacuation or follow-up in addition to tracking.

The on-line collection and monitoring of the black box image information is realized by connecting the black box images of the vehicles in operation in real time. Eventually, networking of vehicle black boxes enables online collection and monitoring.

The in-vehicle black box image data is relayed to the control unit 200 through the mobile communication device of the driver or the passenger who agrees to the information collection. The data storage unit 300 capable of managing the collected black box images can also perform online backup of black box data. In the end, it provides a car black box cloud service. Also, since the voluntary participation of the driver is to be exempted from the communication charge, it is necessary for the user who requests the black box image data to bear the network fee and the data fee involved in the black box video transmission. Thus, for this purpose, the telecommunications company module 500 may be involved in the verification of the data quantity and the billing process.

In another embodiment of the present invention, the control unit 200 can receive real-time weather, temperature, and other information from a mobile communication device or a communication device installed in a black box or vehicle. When a role such as a correspondent dispatched to a news scene or the like is given to a plurality of information provision applicants, the control unit 200 can vividly relay the image of the remote site.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. To those skilled in the art.

Claims (18)

And a control unit connected to the black box installed in the vehicle and the mobile communication device capable of performing close range communication through a mobile communication network with 1 N (where N is a natural number of 2 or more and the number of mobile communication devices)
Wherein the control unit broadcasts explanatory information to the mobile communication network and receives a participant response related to the explanatory information from the mobile communication device when the monitoring event occurs and then transmits the position information of the black box in the vehicle to the mobile communication device And selecting the target vehicles based on the collected location information, requesting the mobile communication devices corresponding to the corresponding black boxes to provide images, and transmitting location information and image information provided from the corresponding black boxes And an on-line collection and monitoring device for black-box image information received in real time via the mobile communication network. The apparatus of claim 1, wherein the controller performs the tracking method for matching the road and the vehicle traveling direction to the position information received in real time in multiple for the plurality of vehicles. The apparatus for online collection and monitoring of black box image information according to claim 1, wherein an area code and a guide message are broadcasted at the time of broadcast of the explanatory information. The apparatus of claim 1, wherein the controller analyzes the position information and the image information provided from the corresponding black boxes in real time to find the image information of interest, and broadcasts the image information and / or description of interest to the plurality of mobile communication devices On-line collection and monitoring of black box image information. The apparatus of claim 4, wherein the description is made by live broadcast and instructs to track, evacuate, or follow. The system of claim 1, further comprising: a user module connected to the control unit to use the black box image information or a communication company module for managing and charging the mobile communication network for collecting the black box image information; Monitoring device. Broadcasting explanatory information to a plurality of mobile communication devices by a control center;
Receiving a participation response related to the explanation information from the plurality of mobile communication devices;
Acquiring location information of in-vehicle black boxes performing short-range communication corresponding to the plurality of mobile communication devices through the mobile communication devices;
Designating at least one target vehicle based on the collected location information, and requesting an image for mobile communication devices corresponding to the corresponding black boxes;
And receiving location information and video information provided from the black boxes corresponding to the video-requested mobile communication devices through the mobile communication devices. The method of claim 7, further comprising: searching for the image information of interest using the received location information and image information, and broadcasting the image information of interest and / or description to the plurality of mobile communication devices How to collect and monitor online. The method of claim 7, wherein the local communication is a Wireless Local Area Network (WLAN) or a Wireless Personal Area Network (WPAN). The method of claim 9, wherein the WPAN is Bluetooth, ZigBee, or Ultra Wideband (UWB) communication. The method as claimed in claim 7, wherein the plurality of mobile communication devices are personal mobile phones performing communication via a high-speed mobile communication network of 3G or higher. The method of claim 7, further comprising transmitting the black box image information to a user module requesting the black box image information. A dedicated application for transmission of image information obtained through a camera is installed and a communication control device is installed in the vehicle, which is connected to the mobile communication device through a mobile communication network by 1 N (where N is a natural number of 2 or more and the number of mobile communication devices) ≪ / RTI >
Wherein the control unit broadcasts explanatory information to the mobile communication network and receives a participation response related to the explanatory information from the mobile communication device when the monitoring event occurs and collects the location information of the vehicle through the mobile communication device Requesting the mobile communication devices to provide an image, selecting location vehicles based on the collected location information, receiving location information and image information provided from the corresponding mobile communication devices through the mobile communication network in real time On-line collection and monitoring of video information. The apparatus of claim 13, wherein the mobile communication device is a smartphone. 14. The apparatus of claim 13, wherein the controller performs a tracking method for matching the road and the vehicle traveling direction to the position information received in real time in multiple for the plurality of vehicles. The apparatus of claim 13, wherein an area code and a guide message are broadcasted at the time of broadcasting the explanatory information. [14] The system of claim 13, wherein the control unit analyzes the location information and the video information in real time to search for the interested video information, and the online collection of the video information broadcasting the desired video information and / Monitoring device. 18. The apparatus for online collection and monitoring of black box image information according to claim 17, wherein the description is made live via the mobile communication network and monitors a crime vehicle, a stolen vehicle, or a fugitive vehicle.

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