KR20190143318A - Multichannel monitoring system for adaptive to svc codec based network situation - Google Patents

Abstract

The present invention relates to a multi-channel monitoring system adaptive to an SVC codec-based network situation, capable of preventing crimes, which comprises: a plurality of local monitoring transmission servers for transmitting monitoring data compressed by a VC codec in real time; and a remote monitoring management server for receiving each monitoring data from the local monitoring transmission servers to store and manage the same.

Description

MULTICHANNEL MONITORING SYSTEM FOR ADAPTIVE TO SVC CODEC BASED NETWORK SITUATION}

The present invention relates to a multi-channel surveillance system adaptive to a SVC (Scalable video coding) codec-based network situation, and more specifically, image data captured by a camera in each local surveillance transmission server implemented by DVR, NVR, NVS By generating the included surveillance data, compressing the generated surveillance data with SVC codec, and determining the transmission size of the surveillance data according to the network situation and transmitting it to the remote surveillance management server. The present invention relates to a multi-channel monitoring system adaptive to SVC codec-based network conditions to enable seamless monitoring without change.

In general, a surveillance and security system is a system for preventing crime by monitoring a video taken by a camera installed in a specific area, such as a crime area, on a remote server, and judging whether there is an abnormality in which a crime can occur.

Such a surveillance and security system receives an image taken in real time for surveillance of a specific region through a camera installed for surveillance of a specific region, and the administrator performs monitoring and monitoring. In addition, the surveillance and security system performs a function of recording the crime video to be used to help the administrator to check the captured video, or to later detect criminals when a dangerous situation occurs. In this case, a closed circuit television (CCTV) is generally used, but a high performance camera is also used.

The present applicant has proposed a "SVC codec based mobile terminal monitoring system by the channel detection" of the Republic of Korea Patent Publication No. 10-1424237. The monitoring system for a mobile terminal uses a single camera, compresses the video taken by the camera with an SVC codec, and remotely monitors a video of a suitable size according to the bandwidth or network quality of the wireless network through channel detection. By transmitting to the server, it can be used for personal security by using a mobile terminal owned by an individual, and in case of emergency, it is possible to recognize the situation to a remote acquaintance.

However, what is required in the surveillance and security system is that the transmission of surveillance video from various cameras and surveillance video data from various types of surveillance servers and transmission servers to the remote surveillance server is smoothly and smoothly by minimizing the degradation of image quality. Through this, the surveillance video transmitted to the remote site is saved, and through the video analysis, it is possible to determine the abnormality of the crime and to take a warning action.

However, such a conventional technology uses only a single camera mounted on a mobile terminal to determine only a network situation of a single wireless network, and has a disadvantage in that many frames of video and high-definition cannot be transmitted due to the characteristics of the wireless network. In particular, the remote monitoring system using a CCTV camera may be able to simply monitor the network through the network image due to the surveillance video quality supported by the camera, that is, the diversity of pixels. As the frame is reduced, the screen is frequently disconnected.

In addition, the conventional network monitoring system can overcome the problem of only monitoring the fixed location of the remote system using a CCTV camera, but the real-time monitoring function is smoothly performed due to the unstable network network that is constantly changing. There was a limit that can not.

In this regard, the present applicant is to propose a surveillance system capable of seamlessly transmitting a high quality surveillance image in a plurality of network situations in which a surveillance server and a transmission server that receive surveillance images from various cameras have different network lines.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, and generates surveillance data including image data captured by a camera at each local surveillance transmission server implemented as DVR, NVR, NVS. After compressing the generated surveillance data with the SVC codec, the transmission size of the surveillance data can be determined according to the network situation and transmitted to the remote surveillance management server. It is an object of the present invention to provide a multi-channel monitoring system adaptive to SVC codec-based network conditions to enable a seamless monitoring function.

In addition, the present invention, even in a number of network situations where the network line is different from the local surveillance transmission server implemented by DVR, NVR, NVS to transmit to the remote surveillance management server by varying the size of the surveillance data according to various network lines and situations It is another object of the present invention to provide a multi-channel surveillance system that is adaptive to SVC codec-based network conditions, so that high-quality surveillance video can be seamlessly transmitted and seamless seamless surveillance can be further enhanced. .

In addition, the present invention, to transmit the surveillance video of the appropriate size to the remote monitoring server according to the network bandwidth or network quality, to determine whether there is a crime can occur from the surveillance video to warn, and to prevent crime through this It is another object of the present invention to provide a multi-channel monitoring system adaptive to SVC codec-based network conditions.

In order to achieve the above object, the multi-channel monitoring system adaptive to the SVC codec-based network situation,

Multi-channel surveillance system adaptive to SVC codec-based network situation

A plurality of local surveillance transmissions that generate surveillance data including image data captured by multiple cameras, compress the generated surveillance data with a scalable video coding (SVC) codec, and transmit the surveillance data compressed with the SVC codec in real time. server; And

Remote monitoring management server for receiving, storing and managing the respective monitoring data from the plurality of local monitoring transmission server,

Each of the plurality of local monitoring transmission servers,

Detects the network status in real time for seamless transmission of surveillance data, and adjusts the transmission size of the surveillance data compressed with the SVC codec in response to the detected change of the network status, and transmits each to the remote surveillance management server.

The remote monitoring management server,

A feature of the configuration is that remote monitoring is performed by receiving images of surveillance data from a plurality of regions where network paths of various regions where a plurality of local surveillance transmission servers for generating and transmitting surveillance data are respectively installed are transmitted.

Preferably, the local monitoring transmission server,

Network paths may be different and may include DVR servers, NVR servers, and NVS servers that are distributed and installed in various regions.

More preferably, each of the local monitoring transmission server,

Transmitting the surveillance data received from a plurality of cameras to the remote surveillance management server, when there is a request for specific surveillance data from the remote surveillance management server, the requested specific surveillance data is retrieved from the storage unit and the remote surveillance management server Can be sent to.

Preferably, each of the local monitoring transmission server,

An input unit having a plurality of cameras for photographing a surveillance area;

Surveillance data generation unit for generating surveillance data including the image data taken by the camera of the input unit, compressing the generated surveillance data with a scalable video coding (SVC) codec, and seamless transmission of surveillance data compressed by the SVC codec A channel detection unit for determining the transmission size according to the network situation, a recording image reproducing mode unit for checking the surveillance data previously stored and managed in the surveillance data storage unit, and a server surveillance setting for setting a local surveillance transmission server A processing control unit including a monitoring application management unit providing a user interface in a mode;

A communication unit connected to the remote monitoring management server through a network and transmitting self-identification information and monitoring data to the remote monitoring management server in real time; And

It may be configured to include an output unit including a display and a speaker for outputting the data analyzed by the processing control unit.

More preferably, the channel detector,

The network status of the network can be detected in real time, and the transmission size of the surveillance data compressed with the SVC codec can be adjusted according to the detected change of the network status.

More preferably, the processing control unit,

When receiving the monitoring data request message according to a specific condition from the remote monitoring management server, a data extraction unit for extracting the image data from the monitoring data or stored monitoring data received from the camera according to a specific condition corresponding to,

The data extraction unit,

If there is no monitoring data corresponding to the monitoring data request message according to the specific condition in the monitoring data storage unit, the monitoring data generated at the closest time based on the specific time included in the monitoring data request message according to the specific condition. Can be extracted.

More preferably,

The monitoring application manager,

If a flag corresponding to the image data is set according to a user's selection in the system monitoring operation mode of the local monitoring transmission server, the set flag information is generated.

The monitoring data generation unit,

Surveillance data may be generated by including flag information set in the image data.

Even more preferably, the remote monitoring management server,

A communication unit including a network module connected to each of the plurality of local monitoring transmission servers through a network;

Surveillance data receiving unit for receiving the surveillance data and the self-identification information including the video data compressed by the SVC codec from the plurality of local surveillance transmission server via the communication unit, and the plurality of local surveillance transmission server by a specific condition A surveillance data request unit for requesting surveillance data, a recorded video playback mode unit for confirming the surveillance data received and stored from the plurality of local surveillance transmission servers, and a remote for setting system surveillance of the remote surveillance management server A surveillance application manager providing a user interface of a surveillance server setting mode, a surveillance data analysis unit analyzing image data from the surveillance data transmitted from the plurality of local surveillance transmission servers, and an image transmitted from the plurality of local surveillance transmission servers Data transfer to local watchdog server Management control unit comprising self-using the identification information storage unit that stores monitoring data to distinguish the image data of the other local monitoring transmission server; And

The control unit may include an output unit including a display configured to display the extracted image data on a display area corresponding to the self-identification information of the plurality of local surveillance transmission servers.

According to the multi-channel surveillance system adaptive to the SVC codec-based network situation proposed by the present invention, each of the local surveillance transmission server implemented by DVR, NVR, NVS generates surveillance data including the image data taken by the camera and After compressing the generated surveillance data with the SVC codec, the transmission size of the surveillance data can be determined according to the network situation and transmitted to the remote surveillance management server. Smooth monitoring can be enabled.

In addition, according to the present invention, a plurality of network situations in which the network line is different from the local surveillance transmission server implemented by DVR, NVR, NVS and transmits to the remote surveillance management server by varying the size of the surveillance data according to various network lines and situations Even seamlessly, high-quality surveillance video can be transmitted seamlessly, thereby enabling seamless seamless surveillance.

In addition, the present invention, to transmit the surveillance video of the appropriate size to the remote monitoring server according to the network bandwidth or network quality, to determine whether there is a crime can occur from the surveillance video to warn, and to prevent crime through this can do.

1 is a diagram showing the overall network configuration of a multi-channel monitoring system adaptive to the SVC codec-based network situation according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a monitoring data transmission flow of a multi-channel monitoring system adaptive to an SVC codec-based network situation according to an embodiment of the present invention.
3 is a diagram illustrating a configuration of a local monitoring transmission server applied to a multi-channel monitoring system adaptive to an SVC codec-based network situation according to an embodiment of the present invention.
4 is a diagram illustrating a configuration of a remote monitoring management server applied to a multi-channel monitoring system adaptive to an SVC codec-based network situation according to an embodiment of the present invention.
5 is a flowchart illustrating a driving process of a multi-channel monitoring system adaptive to an SVC codec-based network situation according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing the preferred embodiment of the present invention in detail, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, in the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

1 is a view showing the overall network configuration of the multi-channel monitoring system adaptive to the SVC codec-based network situation according to an embodiment of the present invention, Figure 2 is a SVC codec-based network situation according to an embodiment of the present invention 3 is a diagram illustrating a configuration of a monitoring data transmission flow of an adaptive multichannel monitoring system, and FIG. 3 is a diagram of a local monitoring transmission server applied to a multichannel monitoring system adaptive to an SVC codec-based network situation according to an embodiment of the present invention. 4 is a diagram illustrating a configuration of a remote monitoring management server applied to a multi-channel monitoring system adaptive to an SVC codec based network situation according to an embodiment of the present invention. 1 to 4, the multi-channel monitoring system 10 adaptive to the SVC codec-based network situation according to an embodiment of the present invention, a plurality of local monitoring transmission server 100, and remote monitoring It may be configured as a management server 200.

The plurality of local surveillance transmission servers 100 generate surveillance data including the image data captured by the plurality of cameras 111 installed in the surveillance region, and convert the generated surveillance data into an SVC (Scalable video coding) codec. It is a configuration of server that transmits surveillance data compressed by SVC codec in real time. Each of the plurality of local surveillance transmission servers 100 detects network conditions in real time for seamless transmission of surveillance data, and adjusts the transmission size of the surveillance data compressed with the SVC codec in response to the detected network situation. Each may be transmitted to the remote monitoring management server 200 to be described later. The local surveillance transmission server 100 may include a digital video recorder (DVR) server, a network video recorder (NVR) server, and a network video server (NVS) server having different network paths and distributed and installed in various regions. have. That is, it may be understood that the local surveillance transmission server 100 is implemented by applying a surveillance server or a transmission server connected to various types of networks.

In this case, SVC (Scalable Video Coding) used in the local surveillance transmission server 100 is a standard of the next generation video coding, which is based on AVC (Advanced Video Coding) coding technology, and has various image quality through one video coding. AVC is a high-efficiency video encoding standard that has been standardized by JVT (Joint Video Team) of MPEG, and is the latest video encoding technology currently used for terrestrial DMB, IPTV, and Blu-ray video. In the present invention, the SVC codec is used.

In addition, each of the local surveillance transmission server 100 transmits the surveillance data received from the plurality of cameras 111 to the remote surveillance management server 200, there may be a request for specific surveillance data from the remote surveillance management server 200. In this case, the requested specific monitoring data may be retrieved from the storage and transmitted to the remote monitoring management server 200.

Also, as illustrated in FIG. 3, each local surveillance transmission server 100 is photographed by an input unit 110 having a plurality of cameras 111 for photographing a surveillance area, and a camera 111 of the input unit 110. Surveillance data generation unit 121 for generating surveillance data including one video data and compressing the generated surveillance data with a scalable video coding (SVC) codec, and for seamless transmission of the surveillance data compressed with the SVC codec. A channel detection unit 122 for determining a transmission size according to a network situation, a recorded image reproduction mode unit 123 for checking surveillance data previously stored and managed in the surveillance data storage unit 126, and a local surveillance transmission server ( Processing control unit 120 including a monitoring application management unit 124 that provides a user interface of the server monitoring setting mode for setting the connection, connection to the remote monitoring management server 200 via a network And a communication unit 130 for transmitting self-identification information and monitoring data to the remote monitoring management server 200 in real time, and a display 141 and a speaker 142 for outputting data analyzed by the processing control unit 120. It can be configured to include an output unit 140. Here, the communication unit 130 may be configured to include a network module 131 capable of network communication, a channel assignment 132 for allocating channels in a network, and an event manager 133 set and managed by an administrator. The output unit 140 may include a DI / DO 143 for digital input and output.

In addition, the channel detection unit 122 of the processing control unit 120 may detect a network condition of the network in real time, and adjust the transmission size of the surveillance data compressed by the SVC codec in response to the detected change of the network condition.

Also, when the processing control unit 120 receives the monitoring data request message according to a specific condition from the remote monitoring management server 200, the processing control unit 120 corresponds to the monitoring data received from the camera 111 or the stored monitoring data according to the specific condition. The data extracting unit 125 may further include a data extracting unit 125 for extracting data. The data extracting unit 125 may include monitoring data corresponding to the monitoring data request message according to the specific condition in the monitoring data storage unit 126. If not present, the monitoring data generated at the nearest time may be extracted based on the specific time included in the monitoring data request message according to the specific condition.

In addition, the processing control unit 120 may further include a data analysis unit 127 for extracting image data from the monitoring data, where the data analysis unit 127 includes the audio data in the case where the monitoring data includes audio data. The apparatus may further include a function of extracting voice data.

In addition, the monitoring application manager 124 of the processing controller 120 may set the flag information corresponding to the image data when the flag corresponding to the image data is set according to the user's selection in the system monitoring operation mode of the local monitoring transmission server 100. In this case, the surveillance data generator 121 may generate the surveillance data including flag information set in the image data.

In addition, the monitoring application manager 124 of the processing control unit 120 includes an emergency situation flag indicating an emergency situation during the system monitoring operation, an illegal situation flag indicating an illegal situation viewed by a third party, and an accident situation flag indicating an accident situation. One or more flag information corresponding to the image data may be further generated according to the operator's selection of the local monitoring transmission server 100.

The remote monitoring management server 200 is a configuration of a management server for remote monitoring that receives, stores and manages each monitoring data from the plurality of local monitoring transmission servers 100. The remote surveillance management server 200 receives the image of the surveillance data from a plurality of regions different from the network paths of various regions where the plurality of local surveillance transmission servers 100 are installed to generate and transmit the surveillance data, respectively. Can be done.

As illustrated in FIG. 4, the remote monitoring management server 200 includes a communication unit 210 and a communication unit 210 including a plurality of local monitoring transmission servers 100 and a network module 211 connected to each other via a network. A surveillance data receiver 221 for receiving surveillance data and self-identification information including image data compressed using the SVC codec from the plurality of local surveillance transmission servers 100, and a plurality of local surveillance transmission servers (). Surveillance data request unit 222 for requesting surveillance data according to a specific condition to 100, and recorded video playback mode unit 223 for confirming the surveillance data received and stored and managed from the plurality of local surveillance transmission servers 100. And a monitoring application manager 224 providing a user interface of a remote monitoring server setting mode for setting system monitoring of the remote monitoring management server 200, and a plurality of local senses. Surveillance data analysis unit 225 for analyzing the image data from the surveillance data received from the transmission server 100 and the self-identification of the local surveillance transmission server 100 to the image data received from the plurality of local surveillance transmission server 100 The extracted video data under the control control of the management control unit 220 and the management control unit 220 including the monitoring data storage unit 226 storing the data separately from the image data of the other local monitoring transmission server 100 by using the information. May be configured to include an output unit 230 having a display 231 for displaying the display area in a display area corresponding to the self-identification information of the plurality of local monitoring transmission servers 100.

In addition, the output unit 230 of the remote monitoring management server 200 displays the audio data together with the display 231 which displays the extracted image data in a display area corresponding to the self-identification information of the plurality of local monitoring transmission servers 100. It may be configured to include a speaker 123 to output, and a DI / DO (233) for digital input and output.

2 is a diagram illustrating a monitoring data transmission flow of a multi-channel monitoring system adaptive to an SVC codec-based network situation according to an embodiment of the present invention. That is, in FIG. 2, even when the network paths are different between the plurality of local monitoring transmission servers 100 and the remote monitoring management server 200, and the network conditions are different, monitoring data is smoothly transmitted. That is, the plurality of local monitoring transmission server 100 and the remote monitoring management server 200 transmits the monitoring data by varying the transmission rate for each network section according to the network situation, so that each network condition connected and connected is changed at any time. In this case, smooth real-time stream transmission of surveillance data is possible.

5 is a flowchart illustrating a driving process of a multi-channel monitoring system adaptive to an SVC codec-based network situation according to an embodiment of the present invention. As illustrated in FIG. 5, the local surveillance transmission server 100 generates, analyzes, and outputs surveillance data including image data captured by a plurality of cameras 111 (S501), and the generated surveillance data is an SVC codec. In operation S502, the compressed surveillance data is stored in the surveillance data storage 126 (S503). Subsequently, the local monitoring transmission server 100 detects a channel of the network to be transmitted (S504), and then reconfigures the SVC monitoring data according to a condition (S503), and then the remote monitoring management server 200 through the assigned channel (S506). The monitoring data is transmitted in step S507.

In addition, the remote monitoring management server 200 that has received the monitoring data is analyzed and output the monitoring data (S508), and stores the monitoring data in the monitoring data storage unit 225 (S509), whether there is an abnormality in the monitoring data (object Check) to output the corresponding control command and guidance message (S511). At this time, the control command and the guidance message is transmitted to the local monitoring transmission server 100 through the network (S512), the local monitoring transmission server 100 outputs the control command and the guidance message (S513).

That is, as shown in FIG. 5, each of the local surveillance transmission server 100 and the remote surveillance management server 200 implemented as DVR, NVR, NVS includes surveillance data including image data captured by the camera 111. After generating the data, compressing the generated surveillance data with the SVC codec and determining the transmission size of the surveillance data according to the network situation to transmit the surveillance data, between the local surveillance transmission server 100 and the remote surveillance management server 200 Seamless network monitoring is possible even with changes in various network lines and situations. That is, even in a plurality of network situations where the network line is different, it is possible to adaptively multi-channel transmission for each channel of the network without interrupting the high quality surveillance video.

As described above, the multi-channel surveillance system adaptive to the SVC codec-based network situation according to an embodiment of the present invention includes image data captured by a camera at each local surveillance transmission server implemented by DVR, NVR, NVS. Generate the surveillance data, compress the generated surveillance data with SVC codec, and configure the transmission size of the surveillance data according to the network situation and transmit it to the remote surveillance management server. It is possible to enable seamless monitoring even in case of changes in the situation.In particular, from the local surveillance transmission server implemented as DVR, NVR, NVS, to the remote surveillance management server by varying the size of surveillance data according to various network lines and situations. Transmits seamlessly high quality even in many network situations where network lines are different Surveillance video of can be transmitted without interruption, through which seamless seamless monitoring function can be enhanced. In addition, it is possible to transmit a surveillance video of a suitable size according to the bandwidth or network quality of the network to the remote monitoring server, to determine whether there is a crime in the surveillance video and to warn the user, and to prevent the crime.

The present invention described above may be variously modified or applied by those skilled in the art, and the scope of the technical idea according to the present invention should be defined by the following claims.

10: multi-channel monitoring system according to an embodiment of the present invention
100: local watchdog server
110: input unit
111: camera
120: processing control unit
121: surveillance data generation unit
122: channel detector
123: Recorded video playback mode
124: surveillance application management unit
125: data extraction unit
126: surveillance data storage
127: data analysis unit
130: communication unit
131: network module
132: channel assignment
133: Event Manager
140: output unit
141: display
142: speaker
143: DI / DO
200: remote monitoring management server
210: communication unit
211: network module
220: management control unit
221: monitoring data receiving unit
222: surveillance data request unit
223: Recorded video playback mode
224: surveillance application management unit
225: surveillance data analysis unit
226: surveillance data storage
230: output unit
231: display
232: speaker
233: DI / DO

Claims (8)

A multi-channel monitoring system 10 adaptive to SVC codec based network situation,
Create a plurality of surveillance data including the image data taken by the plurality of cameras 111, compresses the generated surveillance data with a scalable video coding (SVC) codec, and transmits the surveillance data compressed by the SVC codec in real time Local monitoring transmission server 100; And
Remote monitoring management server 200 for receiving, storing and managing each monitoring data from the plurality of local monitoring transmission server 100,
Each of the plurality of local monitoring transmission server 100,
Detects the network condition in real time for seamless transmission of monitoring data, and adjusts the transmission size of the monitoring data compressed by the SVC codec in response to the detected change of the network condition, and transmits each to the remote monitoring management server 200. ,
The remote monitoring management server 200,
SVC codec, characterized in that to perform the remote monitoring by receiving the image of the surveillance data from a plurality of regions where the network paths of various regions where the plurality of local surveillance transmission server 100, which generates and transmits the surveillance data, respectively is installed Multi-channel monitoring system adaptive to network situation.
The method of claim 1, wherein the local monitoring transmission server 100,
A multi-channel surveillance system adaptive to an SVC codec-based network situation, comprising a DVR server, an NVR server, and an NVS server, which have different network paths and are distributed and installed in various regions.
The method of claim 2, wherein each of the local monitoring transmission server 100,
Transmitting the surveillance data received from a plurality of cameras 111 to the remote surveillance management server 200, when there is a request for specific surveillance data from the remote surveillance management server 200, and stores the requested specific surveillance data The multi-channel monitoring system adaptive to the SVC codec-based network situation, characterized in that the search for the transmission to the remote monitoring management server (200).
The method according to any one of claims 1 to 3, wherein each of the local monitoring transmission server 100,
An input unit 110 including a plurality of cameras 111 for photographing a surveillance area;
Surveillance data generation unit 121 for generating surveillance data including the image data captured by the camera 111 of the input unit 110, and compressing the generated surveillance data with a scalable video coding (SVC) codec, and the SVC codec Replaying the recorded image for confirming the monitoring data pre-stored and managed in the channel detection unit 122 and the monitoring data storage unit 126 for determining the transmission size according to network conditions for seamless transmission of the surveillance data compressed by the A processing control unit 120 including a mode unit 123 and a monitoring application manager 124 providing a user interface of a server monitoring setting mode for setting the local monitoring transmission server 100;
A communication unit 130 connected to the remote monitoring management server 200 through a network and transmitting self-identification information and monitoring data to the remote monitoring management server 200 in real time; And
And an output unit 140 including a display 141 and a speaker 142 for outputting the data analyzed by the processing control unit 120. Surveillance system.
The method of claim 4, wherein the channel detector 122,
A multi-channel monitoring system adaptive to an SVC codec-based network situation, characterized by real-time detection of a network condition of a network and adjusting transmission size of surveillance data compressed with an SVC codec in response to a change in the detected network condition. .
The method of claim 4, wherein the processing control unit 120,
When receiving the monitoring data request message according to a specific condition from the remote monitoring management server 200, in response to the data extraction unit for extracting the monitoring data received from the camera 111 or the stored monitoring data according to a specific condition More (125),
The data extraction unit 125,
When the monitoring data corresponding to the monitoring data request message under the specific condition does not exist in the monitoring data storage unit 126, the monitoring data storage unit 126 generates the closest time based on the specific time included in the monitoring data request message under the specific condition. A multi-channel surveillance system adaptive to the SVC codec-based network situation, characterized in that for extracting the surveillance data.
The method of claim 4, wherein
The monitoring application manager 124,
When a flag corresponding to the image data is set according to a user's selection in the system monitoring operation mode of the local monitoring transmission server 100, the set flag information is generated.
The monitoring data generation unit 121,
And generating surveillance data including flag information set in the video data.
According to claim 6, The remote monitoring server 200,
A communication unit 210 having a network module 211 connected and connected to the plurality of local monitoring transmission servers 100 through a network;
Surveillance data receiving unit 221 which receives surveillance data and self-identification information including image data compressed using SVC codec from a plurality of local surveillance transmission servers 100 via the communication unit 210, and the plurality of Surveillance data request unit 222 for requesting surveillance data according to a specific condition from the local surveillance transmission server 100 and recording for confirming surveillance data received and stored and managed by the plurality of local surveillance transmission servers 100. A monitoring application management unit 224 providing a video reproduction mode unit 223, a user interface of a remote monitoring server setting mode for setting system monitoring of the remote monitoring management server 200, and the plurality of local monitoring transmission servers ( Surveillance data analysis unit 225 for analyzing the image data from the surveillance data received from the 100, and from the plurality of local surveillance transmission server 100 Management control unit 220 by using the self-identifying information of the local monitoring transmission server 100 includes a monitoring data storage unit 226 for storing separated and the video data of the other local monitoring transmission server 100, the received image data; And
Under the control management of the management control unit 220, an output unit 230 having a display 231 for displaying the extracted image data in the display area corresponding to the self-identification information of the plurality of local monitoring transmission server 100; The multi-channel monitoring system adaptive to the SVC codec-based network conditions, characterized in that configuration.

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