KR102163427B1 - 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 the SVC codec-based network situation, and more specifically, as a multi-channel monitoring system adaptive to the SVC codec-based network situation, monitoring data including image data photographed by a plurality of cameras. A plurality of local monitoring transmission servers for generating, compressing the generated monitoring data with a scalable video coding (SVC) codec, and transmitting monitoring data compressed with the SVC codec in real time; And a remote monitoring management server receiving, storing, and managing each monitoring data from the plurality of local monitoring transmission servers, wherein each of the plurality of local monitoring transmission servers monitors network conditions in real time for seamless transmission of monitoring data. And transmits the data to the remote monitoring management server, respectively, by adjusting the transmission size of the monitoring data compressed with the SVC codec in response to changes in the detected network conditions, and the remote monitoring management server generates and transmits each monitoring data. A feature of the configuration is that, by receiving images of monitoring data from a plurality of regions having different network paths in various regions where a plurality of local monitoring transmission servers are installed, remote monitoring is performed.
According to the multi-channel monitoring system adaptive to the network situation based on the SVC codec proposed in the present invention, each local monitoring and transmission server implemented by DVR, NVR, and NVS generates monitoring data including image data captured by a camera. , By compressing the generated monitoring data with the SVC codec and determining the transmission size of the monitoring data according to the network conditions and configuring it to be transmitted to the remote monitoring management server, the remote monitoring management server is seamless even with changes in various network lines and situations. You can make it possible to have a smooth monitoring function.
In addition, according to the present invention, as the size of the monitoring data is transmitted to the remote monitoring management server by varying the size of the monitoring data according to various network lines and conditions from a local monitoring transmission server implemented by DVR, NVR, and NVS, a number of network conditions with different network lines High-quality surveillance video can be transmitted seamlessly and seamlessly, and through this, the seamless surveillance function can be further strengthened.
In addition, the present invention transmits a monitoring image of an appropriate size to a remote monitoring server according to the bandwidth or network quality of the network, determines whether there is a possible crime in the monitoring image, and takes a warning action, so that crime prevention is possible. can do.

Description

Multi-channel monitoring system adapted to the network situation based on SVC codec {MULTICHANNEL MONITORING SYSTEM FOR ADAPTIVE TO SVC CODEC BASED NETWORK SITUATION}

The present invention relates to a multi-channel monitoring system adaptive to a network situation based on a scalable video coding (SVC) codec, and more specifically, image data captured by a camera in each local monitoring and transmission server implemented by DVR, NVR, and NVS. The included monitoring data is created, the generated monitoring data is compressed with the SVC codec, and the transmission size of the monitoring data is determined according to the network conditions and transmitted to the remote monitoring management server. It relates to a multi-channel monitoring system adaptive to the network situation based on the SVC codec that enables a seamless and seamless monitoring function despite changes.

In general, a surveillance and crime prevention system is a system for preventing crime by monitoring an image captured by a camera installed in a specific area, such as an accidental area, on a server in a remote location, determining whether there is a possible crime, and taking a warning action.

In such a monitoring and crime prevention system, an administrator performs monitoring and monitoring by receiving images taken in real time for monitoring in a specific area through a camera installed for monitoring in a specific area. In addition, the surveillance and crime prevention system performs a function of recording a crime video so that an administrator can check the captured image and help when a dangerous situation occurs, or to be used to search for a criminal later. Here, the camera is generally a closed circuit television (CCTV), but a high-performance camera is also used.

The present applicant has proposed "SVC codec-based monitoring system for mobile terminals by channel detection" in Korean Patent Publication No. 10-1424237. This surveillance system for mobile terminals uses a single camera, compresses the video captured by the camera with the SVC codec, and monitors the video of a suitable size according to the bandwidth or network quality of the wireless network through channel detection. By sending it to the server, it is used for personal crime prevention by using a mobile terminal owned by the individual, and in case of emergency, the situation can be recognized by remote acquaintances.

However, what is required in the monitoring and crime prevention system is that the monitoring images from various cameras and multi-channel monitoring image data from various types of monitoring servers and transmission servers are required to be seamlessly transmitted to the remote monitoring server without interruption by minimizing deterioration in quality. Through this, surveillance images transmitted to remote locations are stored, and through image analysis, it is possible to take warning measures by determining whether there is a possible crime.

However, such a conventional technique has a disadvantage in that only a network condition of a single wireless network is determined by using a single camera mounted on a mobile terminal, and images of many frames and high quality cannot be transmitted due to the characteristics of the wireless network. In particular, a remote monitoring system using a CCTV camera may be able to simply monitor through a network network due to the recent surveillance image quality supported by the camera, that is, the diversity of pixels, but in the case of high definition, the speed may be slowed down depending on the bandwidth and situation of the network line. There was a problem in that the screen was cut off frequently as the frame was reduced.

In addition, the conventional monitoring system through a network network could overcome the problem that only the situation of a fixed place with a remote system using a CCTV camera could be overcome, but the real-time monitoring function was smoothly performed due to the ever-changing unstable network network. There was a limit of not being able to do it.

Accordingly, the present applicant intends to propose a surveillance system in which a surveillance server and a transmission server receiving surveillance images from a plurality of various cameras can seamlessly transmit a high-quality surveillance image in a number of network situations with different network lines.

The present invention has been proposed to solve the above problems of the previously proposed methods, and generates monitoring data including image data captured by a camera in each local monitoring transmission server implemented by DVR, NVR, and NVS. , By compressing the generated monitoring data with the SVC codec and determining the transmission size of the monitoring data according to the network conditions and configuring it to be transmitted to the remote monitoring management server, the remote monitoring management server is seamless even with changes in various network lines and situations. Its purpose is to provide a multi-channel monitoring system that is adaptive to network conditions based on SVC codec that enables a smooth monitoring function.

In addition, according to the present invention, the size of the monitoring data is transmitted to the remote monitoring management server by varying the size of the monitoring data according to various network lines and conditions from the local monitoring transmission server implemented by DVR, NVR, and NVS, even in a number of network situations with different network lines. Another object is to provide a multi-channel surveillance system that is adaptive to the network situation based on SVC codec, which enables smooth, high-quality surveillance images to be transmitted seamlessly, and through this, the seamless and seamless surveillance function can be further strengthened. .

In addition, the present invention transmits a monitoring image of an appropriate size to a remote monitoring server according to the bandwidth or network quality of the network, determines whether there is a possible crime in the monitoring image, and takes a warning action, so that crime prevention is possible. Another object is to provide a multi-channel monitoring system that is adaptive to the network situation based on the SVC codec.

A multi-channel monitoring system adaptive to a network situation based on an SVC codec according to a feature of the present invention for achieving the above object,

As a multi-channel monitoring system adaptive to the network situation based on SVC codec,

Multiple local surveillance transmissions that generate surveillance data including video data captured by multiple cameras, compress the generated surveillance data with SVC (Scalable video coding) codec, and transmit surveillance data compressed with SVC codec in real time server; And

Including a remote monitoring management server for receiving, storing and managing each monitoring data from the plurality of local monitoring transmission server,

Each of the plurality of local monitoring and transmission servers,

For seamless transmission of monitoring data, network conditions are detected in real time, and in response to changes in the detected network conditions, the transmission size of the compressed monitoring data is adjusted with the SVC codec and transmitted to the remote monitoring management server, respectively,

The remote monitoring management server,

A characteristic feature of the configuration is that the remote monitoring is performed by receiving images of the monitoring data from a plurality of regions having different network paths in different regions in which a plurality of local monitoring transmission servers that generate and transmit monitoring data are installed.

Preferably, the local monitoring transmission server,

Network paths are different from each other, and may include a DVR server, an NVR server, and an NVS server that are distributed and installed in various regions.

More preferably, each of the local monitoring and transmission servers,

The monitoring data received from multiple cameras is transmitted to the remote monitoring management server, but when specific monitoring data is requested from the remote monitoring management server, the requested specific monitoring data is retrieved from the storage unit and the remote monitoring management server Can be transferred to.

Preferably, each of the local monitoring and transmission servers,

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

A surveillance data generator that generates surveillance data including image data captured by the input unit camera, compresses the generated surveillance data with a scalable video coding (SVC) codec, and seamless transmission of surveillance data compressed with the SVC codec For example, a channel detection unit that determines the transmission size according to network conditions, a recorded video playback mode unit to check the monitoring data previously stored and managed in the monitoring data storage unit, and a server monitoring setting to set the local monitoring transmission server A processing control unit including a monitoring application management unit providing a mode user interface;

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 to output the data analyzed by the processing control unit.

More preferably, the channel detection unit,

The network condition of the network network can be detected in real time, and the transmission size of the monitoring data compressed with the SVC codec can be adjusted in response to changes in the detected network condition.

More preferably, the processing control unit,

When receiving a monitoring data request message according to a specific condition from the remote monitoring management server, further comprising a data extracting unit for extracting video data according to a specific condition from the monitoring data or stored monitoring data received from the camera in response thereto,

The data extraction unit,

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

More preferably,

The monitoring application management unit,

When a flag corresponding to the video data is set according to the 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,

Monitoring 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 and transmission servers through a network;

A monitoring data receiving unit that receives monitoring data and self-identification information including video data compressed using SVC codec from a plurality of local monitoring transmission servers via the communication unit, and the plurality of local monitoring transmission servers according to specific conditions. A monitoring data requesting unit for requesting monitoring data, a recorded video playback mode unit for checking monitoring data transmitted from the plurality of local monitoring and transmission servers and stored and managed, and a remote for setting system monitoring of the remote monitoring management server. A monitoring application management unit that provides a user interface in a monitoring server setting mode, a monitoring data analysis unit that analyzes video data from the monitoring data transmitted from the plurality of local monitoring and transmission servers, and an image transmitted from the plurality of local monitoring and transmission servers. A management control unit including a monitoring data storage unit that separates and stores data from image data of other local monitoring transmission servers by using self-identification information of the local monitoring transmission server; And

It may be configured to include an output unit having a display that displays the extracted image data in a display area corresponding to self-identification information of a plurality of local monitoring and transmission servers under the control and management of the management control unit.

According to the multi-channel monitoring system adaptive to the network situation based on the SVC codec proposed in the present invention, each local monitoring and transmission server implemented by DVR, NVR, and NVS generates monitoring data including image data captured by a camera. , By compressing the generated monitoring data with the SVC codec and determining the transmission size of the monitoring data according to the network conditions and configuring it to be transmitted to the remote monitoring management server, the remote monitoring management server is seamless even with changes in various network lines and situations. You can make it possible to have a smooth monitoring function.

In addition, according to the present invention, as the size of the monitoring data is transmitted to the remote monitoring management server by varying the size of the monitoring data according to various network lines and conditions from a local monitoring transmission server implemented by DVR, NVR, and NVS, a number of network conditions with different network lines High-quality surveillance video can be transmitted seamlessly and seamlessly, and through this, the seamless surveillance function can be further strengthened.

In addition, the present invention transmits a monitoring image of an appropriate size to a remote monitoring server according to the bandwidth or network quality of the network, determines whether there is a possible crime in the monitoring image, and takes a warning action, so that crime prevention is possible. can do.

1 is a diagram illustrating an overall network configuration of a multi-channel monitoring system adaptive to a network situation based on an SVC codec 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 a network situation based on an SVC codec 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 a network situation based on an SVC codec 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 a network situation based on an SVC codec according to an embodiment of the present invention.
5 is a diagram illustrating a driving process flow of a multi-channel monitoring system adaptive to a network situation based on an SVC codec according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a 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 portions having similar functions and functions.

In addition, in the entire specification, when a part is said to be'connected' with another part, it is not only'directly connected', but also'indirectly connected' with another element in the middle. Include. In addition, "including" a certain component means that other components may be further included rather than excluding other components unless otherwise stated.

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

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

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

In addition, each of the local monitoring and transmission servers 100 transmits the monitoring data received from the plurality of cameras 111 to the remote monitoring management server 200, but there is a request for specific monitoring data from the remote monitoring 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.

In addition, each of the local monitoring and transmission servers 100, as shown in FIG. 3, is taken by an input unit 110 including a plurality of cameras 111 for photographing a surveillance area, and a camera 111 of the input unit 110 A surveillance data generation unit 121 that generates surveillance data including one video data and compresses the generated surveillance data with a scalable video coding (SVC) codec, and for seamless transmission of 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 playback mode unit 123 for checking monitoring data previously stored and managed in the monitoring data storage unit 126, and a local monitoring transmission server ( A processing control unit 120 including a monitoring application management unit 124 providing a user interface in a server monitoring setting mode for setting 100), and connected to the remote monitoring management server 200 through a network, and self-identifying information And an output unit 140 including a communication unit 130 for transmitting 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 ) Can be included. Here, the communication unit 130 may be configured to include a network module 131 capable of network communication, a channel assignment 132 for allocating a channel in the 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 a network network in real time and adjust the transmission size of the monitoring data compressed by the SVC codec in response to a change in the detected network condition.

In addition, when the processing control unit 120 receives a monitoring data request message according to a specific condition from the remote monitoring management server 200, the monitoring data received from the camera 111 or stored monitoring data is converted to an image according to the specific condition. It may be configured to further include a data extracting unit 125 for extracting data, in which case the data extracting unit 125 includes monitoring data corresponding to the monitoring data request message according to the specific condition to the monitoring data storage unit 126 If not present, monitoring data generated at the nearest time may be extracted based on a specific time included in the monitoring data request message according to a specific condition.

In addition, the processing control unit 120 may be configured to further include a data analysis unit 127 for extracting image data from the monitoring data, where the data analysis unit 127 is a case in which voice data is included in the monitoring data. It may further include a function of extracting voice data.

In addition, the monitoring application management unit 124 of the processing control unit 120 stores the set flag information when a 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 monitoring data generation unit 121 may generate monitoring data including flag information set in the image data.

In addition, the monitoring application management unit 124 of the processing control unit 120 includes an emergency situation flag indicating an urgent situation during the system monitoring operation, an illegal situation flag indicating an illegal situation viewed from the perspective of 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 a plurality of local monitoring transmission servers 100. Such a remote monitoring management server 200 receives images of monitoring data from a plurality of regions having different network paths in various regions where a plurality of local monitoring transmission servers 100 are installed, each generating and transmitting monitoring data, and performing remote monitoring. Can be done.

As shown 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 and transmission servers 100 and a network module 211 connected to each other via a network. A monitoring data receiving unit 221 receiving monitoring data including image data compressed using the SVC codec and self-identification information from a plurality of local monitoring and transmission servers 100 via a medium, and a plurality of local monitoring transmission servers ( A monitoring data request unit 222 for requesting monitoring data according to a specific condition to 100), and a recorded video playback mode unit 223 for checking monitoring data transmitted from the plurality of local monitoring transmission servers 100 and stored and managed. ), and a monitoring application management unit 224 providing a user interface in a remote monitoring server setting mode for setting system monitoring of the remote monitoring management server 200, and monitoring data transmitted from a plurality of local monitoring transmission servers 100 Using the self-identification information of the monitoring data analysis unit 225 and the plurality of local monitoring transmission server 100, the image data received from the local monitoring transmission server 100, and another local monitoring transmission server ( A management control unit 220 including a monitoring data storage unit 226 that separates and stores the image data of 100), and a plurality of local monitoring and transmission servers 100 for the extracted image data under the control management of the management control unit 220 It may be configured to include an output unit 230 having a display 231 that displays in a display area corresponding to the self-identification information of.

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

2 shows a flow of monitoring data transmission of a multi-channel monitoring system adaptive to a network situation based on an SVC codec according to an embodiment of the present invention. That is, in FIG. 2, even when a network path is different between the plurality of local monitoring transmission servers 100 and the remote monitoring management server 200 and the network conditions are different, the transmission of monitoring data is smoothly performed. That is, since the plurality of local monitoring and transmission servers 100 and the remote monitoring management server 200 transmit monitoring data by varying the transmission rate for each network segment according to the network situation, the network situation in which each network situation to be connected and connected changes from time to time. Also, a smooth real-time stream transmission of monitoring data is possible.

5 is a diagram illustrating a driving process flow of a multi-channel monitoring system adaptive to a network situation based on an SVC codec according to an embodiment of the present invention. As shown in FIG. 5, the local monitoring transmission server 100 generates, analyzes, and outputs monitoring data including image data photographed by a plurality of cameras 111 (S501), and the generated monitoring data is an SVC codec. Is compressed (S502), and the compressed monitoring data is stored in the monitoring data storage unit 126 (S503). Subsequently, the local monitoring transmission server 100 detects a channel of the network to be transmitted (S504), and then reconstructs the SVC monitoring data according to conditions (S503), and then the remote monitoring management server 200 through the assigned channel (S506). To transmit the monitoring data (S507).

In addition, the remote monitoring management server 200 receiving the monitoring data analyzes and outputs the monitoring data (S508), stores the monitoring data in the monitoring data storage unit 225 (S509), and whether there is an abnormality in the monitoring data (object Confirm) and output a control command and a guide message corresponding thereto (S511). At this time, the control command and the guide message are transmitted to the corresponding local monitoring transmission server 100 through the network (S512), and the local monitoring transmission server 100 outputs a control command execution and a guide message (S513).

That is, as shown in FIG. 5, each of the local monitoring transmission server 100 and the remote monitoring management server 200 implemented by DVR, NVR, and NVS are monitoring data including image data captured by the camera 111. Is generated, the generated monitoring data is compressed with the SVC codec, and then the transmission size of the monitoring data is determined according to the network conditions, and the monitoring data is transmitted, so that between the local monitoring transmission server 100 and the remote monitoring management server 200 A seamless monitoring function is possible even with changes in various network lines and situations. In other words, adaptive multi-channel transmission for each channel of the network is possible without interruption of high-quality surveillance video smoothly even in multiple network conditions with different network lines.

As described above, the multi-channel monitoring system adaptive to the network situation based on the SVC codec according to an embodiment of the present invention includes image data captured by a camera in each local monitoring and transmission server implemented by DVR, NVR, and NVS. The generated monitoring data is created, the generated monitoring data is compressed with the SVC codec, and the transmission size of the monitoring data is determined according to the network conditions and can be transmitted to the remote monitoring management server. It is possible to enable a seamless and seamless monitoring function even when the situation changes. In particular, from a local monitoring transmission server implemented by DVR, NVR, NVS to a remote monitoring management server by varying the size of monitoring data according to various network lines and situations. As a result of transmission, high-quality surveillance images can be seamlessly transmitted even in a number of network conditions with different network lines, and a seamless and seamless surveillance function can be further strengthened through this. In addition, according to the bandwidth or network quality of the network, a monitoring image of an appropriate size is transmitted to a remote monitoring server, and a warning is taken by determining whether or not there is a possible crime in the monitoring image, thereby making it possible to prevent crime.

The present invention described above can be modified or applied in various ways by those of ordinary skill in the technical field to which the present invention belongs, and the scope of the technical idea according to the present invention should be determined by the following claims.

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

Claims (8)

As a multi-channel monitoring system 10 adapted to a network situation based on an SVC codec,
A plurality of devices that generate surveillance data including image data captured by a plurality of cameras 111, compress the generated surveillance data with a scalable video coding (SVC) codec, and transmit surveillance data compressed with the SVC codec in real time. A local monitoring transmission server 100; And
Including a remote monitoring management server 200 for receiving, storing and managing each monitoring data from the plurality of local monitoring and transmission server 100,
Each of the plurality of local monitoring and transmission servers 100,
For seamless transmission of monitoring data, network conditions are sensed in real time, and in response to changes in the detected network conditions, the transmission size of the compressed monitoring data is adjusted with the SVC codec and transmitted to the remote monitoring management server 200, respectively. ,
The remote monitoring management server 200,
Remote monitoring is performed by receiving images of monitoring data from a plurality of regions having different network paths in various regions where a plurality of local monitoring transmission servers 100 are installed, respectively generating and transmitting monitoring data,
The local monitoring transmission server 100,
Network paths are different and include DVR servers, NVR servers, and NVS servers that are distributed and installed in several regions,
Each of the local monitoring and transmission servers 100,
The monitoring data received from a plurality of cameras 111 is transmitted to the remote monitoring management server 200, but when specific monitoring data is requested from the remote monitoring management server 200, the requested specific monitoring data is stored. Search in the unit and transmit to the remote monitoring management server 200,
The remote monitoring management server 200,
A communication unit 210 including a network module 211 connected to each of the plurality of local monitoring and transmission servers 100 and a network via a network, and a plurality of local monitoring and transmission servers 100 via the communication unit 210 A monitoring data receiving unit 221 that receives monitoring data and self-identification information including video data compressed using the SVC codec from, and requesting monitoring data based on a specific condition from the plurality of local monitoring transmission servers 100 A monitoring data request unit 222 for, and a recorded video playback mode unit 223 for checking monitoring data transmitted from the plurality of local monitoring and transmission servers 100 and stored and managed, and a remote monitoring management server 200 A monitoring application management unit 224 that provides a user interface in a remote monitoring server setting mode for setting system monitoring, and a monitoring data analysis unit that analyzes image data from the monitoring data transmitted from the plurality of local monitoring and transmission servers 100 In 225, the image data transmitted from the plurality of local monitoring and transmission servers 100 are stored separately from image data of other local monitoring and transmission servers 100 using self-identification information of the local monitoring and transmission server 100. A management control unit 220 including a monitoring data storage unit 226 and, under the control management of the management control unit 220, display the extracted image data corresponding to self-identification information of a plurality of local monitoring and transmission servers 100 A multi-channel monitoring system adapted to a network situation based on an SVC codec, comprising: an output unit 230 having a display 231 displayed in an area.
delete delete The method of claim 1, wherein each of the local monitoring and transmission servers (100),
An input unit 110 having a plurality of cameras 111 for photographing a surveillance area;
A monitoring data generator 121 for generating monitoring data including image data captured by the camera 111 of the input unit 110 and compressing the generated monitoring data with a scalable video coding (SVC) codec, and an SVC codec The channel detection unit 122 determines the transmission size according to the network conditions for seamless transmission of the monitoring data compressed by the system, and the recorded video playback to check the monitoring data previously stored and managed in the monitoring data storage unit 126 A processing control unit 120 including a mode unit 123 and a monitoring application management unit 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 via a network, and transmitting self-identification information and monitoring data to the remote monitoring management server 200 in real time; And
A multi-channel adaptive to the SVC codec-based network situation, characterized in that it comprises a display 141 that outputs the data analyzed by the processing control unit 120 and an output unit 140 including a speaker 142 Surveillance system.
The method of claim 4, wherein the channel detection unit 122,
Multi-channel monitoring system adaptive to network conditions based on SVC codec, characterized in that it detects the network condition of the network network in real time and adjusts the transmission size of the monitoring data compressed with the SVC codec in response to changes in the detected network condition. .
The method of claim 4, wherein the processing control unit 120,
When receiving a monitoring data request message according to a specific condition from the remote monitoring management server 200, a data extracting unit for extracting video data from the monitoring data received from the camera 111 or stored monitoring data according to a specific condition in response thereto (125) further including,
The data extraction unit 125,
When the monitoring data corresponding to the monitoring data request message according to the specific condition does not exist in the monitoring data storage unit 126, it is generated at the nearest time based on a specific time included in the monitoring data request message according to the specific condition. A multi-channel monitoring system adapted to a network situation based on an SVC codec, characterized in that extracting the generated monitoring data.
The method of claim 4,
The monitoring application management unit 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,
A multi-channel monitoring system adapted to a network situation based on an SVC codec, characterized in that generating monitoring data including flag information set in the image data.
delete

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