CN102769738A - A SIP protocol-based decoding system for substation video monitoring on the wall - Google Patents

Abstract

The invention discloses an SIP (session initiation protocol)-based on-the-wall decoding system for transformer substation video monitoring. The SIP-based on-the-wall decoding system for transformer substation video monitoring comprises a superior platform and a subordinate platform, and in the superior platform, output ends of a plurality of cameras are connected with a short-range communication port of a subordinate communication server through front-end coding equipment and a subordinate video management server, a remote communication port of the subordinate communication server is connected with a remote communication port of a superior communication server, a short-range communication port of the superior communication server is connected with a video signal input end of an on-the-wall decoding unit through the superior communication server, a control signal input end of the on-the-wall decoding unit is connected with a control signal output end of a PC (personal computer) management workstation, and a video signal output end of the on-the-wall decoding unit is sequentially connected with a signal input end of a large spliced screen through a video switching matrix and a video splicing controller sequentially. The SIP-based on-the-wall decoding system for transformer substation video monitoring integrates video resources and achieves on-the-wall display of the video resources, so that the requirements on unified invoking of the video resources are met.

Description

A kind of based on wall decode system on transformer station's video monitoring of Session Initiation Protocol

Technical field

The present invention relates to a kind of video monitoring system for substation, relate in particular to a kind of differentiated control and realize the information sharing of upper and lower level based on wall decode system on transformer station's video monitoring of Session Initiation Protocol.

Background technology

Video monitoring system for substation in the existing power system is at different times, form with the disparity items construction by different departments; What adopt also is the system and the equipment of distinct device producer, different times; Formed that present product type is numerous, the irregular present situation that differs, can't unify centralized monitor of technical performance index,, can't go up the wall decoding to the image of video system particularly in occasions such as Police Command Center, control centres; On large-screen, call video monitoring system; Not only can't satisfy the unwatched requirement of transformer station, also can't satisfy the demand of three collection, five big systems, more can't satisfy the intelligent growth requirement of building of electrical network; The intellectuality that has had a strong impact on video monitoring system promotes, and can't effectively bring into play the technical support of video monitoring system on company's lean management and intensive management.Therefore, realize the last wall decoding function of video monitoring system for substation, become the key technology that needs to be resolved hurrily, still do not have the bibliographical information and the application case of head it off at present.

Summary of the invention

The object of the invention with regard to be that a kind of differentiated control is provided in order to address the above problem and realize the information sharing of upper and lower level based on wall decode system on transformer station's video monitoring of Session Initiation Protocol.

The present invention realizes above-mentioned purpose through following technical scheme:

The present invention includes superior platforms and subordinate's platform; Said subordinate platform comprises subordinate's communication server, subordinate's video management server, front end encoding device and a plurality of video camera, and said superior platforms comprises higher level's communication server, higher level's video management server, goes up wall decoding unit, PC management work station, video switching matrix, video-splicing controller and splicing large screen; The signal output part of a plurality of said video cameras is connected with the video signal input terminal of said front end encoding device respectively; The VT of said front end encoding device is connected with the video signal input terminal of said subordinate video management server; Said subordinate video management server COM1 is connected with the Near Field Communication port of the said subordinate communication server; The telecommunication port of the said subordinate communication server is connected with the telecommunication port of said higher level's communication server; The Near Field Communication port of said higher level's communication server is connected with the COM1 of said higher level's video management server; The VT of said higher level's video management server is connected with the said signal input part of going up the wall decoding unit; The said signal input end that goes up the wall decoding unit is connected with the control signal output ends of said PC management work station; The said VT of going up the wall decoding unit is connected with the signal input part of said video switching matrix, and the signal output part of said video switching matrix is connected with the signal input part of said video-splicing controller, and the signal output part of said video-splicing controller is connected with the signal input part of said splicing large screen.

During application, video camera carries out video information coding through the front end encoding device or is encoded by himself.Last wall decoding unit carries out user's registration to higher level's video management server, and after succeeding in registration, last wall decoding unit has obtained station end facility information to higher level's video management server, and these information show in the PC management work station.The PC management work station calls the video traffic in the directory tree as required; Last wall decoding unit obtains corresponding video parameter and video flowing from higher level's video management server, and subordinate's platform station end arrives superior platforms through the video flowing after encoding through integrated data network.The PC management work station switches to the video flowing that calls respectively on the large-size screen monitors video wall as required.

As preferably; Be connected through integrated data network between the telecommunication port of the said subordinate communication server and the telecommunication port of said higher level's communication server; Be connected through the DVI cable between the signal input part of the said VT of going up the wall decoding unit and said video switching matrix; Be connected through the DVI/RGB cable between the signal input part of the signal output part of said video switching matrix and said video-splicing controller, be connected through the DVI/RGB cable between the signal output part of said video-splicing controller and the signal input part of said splicing large screen.

Particularly, said video camera is web camera or analog video camera.Web camera (also claiming the IPC video camera) carries out video information coding by himself, and analog video camera carries out video information coding through the front end encoding device.

Beneficial effect of the present invention is:

The present invention is through differentiated control and realize the information sharing of upper and lower level, integrates and goes up wall to video resource and show, satisfies Police Command Center, control centre etc. to the unified demand of calling video resource on large-screen.

Description of drawings

Accompanying drawing is a system architecture diagram of the present invention.

Embodiment

Below in conjunction with accompanying drawing the present invention is described further:

Shown in accompanying drawing; The present invention includes superior platforms and subordinate's platform; Said subordinate platform comprises subordinate's communication server, subordinate's video management server, front end encoding device and a plurality of video camera; Among the figure video camera comprise first video camera, second video camera, the 3rd video camera ..., the n video camera, superior platforms comprises higher level's communication server, higher level's video management server, goes up wall decoding unit, PC management work station, video switching matrix, video-splicing controller and splicing large screen; The signal output part of a plurality of video cameras is connected with the video signal input terminal of front end encoding device respectively; The VT of front end encoding device is connected with the video signal input terminal of subordinate's video management server; Subordinate's video management server COM1 is connected with the Near Field Communication port of subordinate's communication server; Be connected through integrated data network between the telecommunication port of subordinate's communication server and the telecommunication port of higher level's communication server; The Near Field Communication port of higher level's communication server is connected with the COM1 of higher level's video management server; The VT of higher level's video management server is connected with the signal input part of last wall decoding unit; The signal input end of last wall decoding unit is connected with the control signal output ends of PC management work station; Be connected through the DVI cable between the VT of last wall decoding unit and the signal input part of video switching matrix, be connected through the DVI/RGB cable between the signal input part of the signal output part of video switching matrix and video-splicing controller, be connected through the DVI/RGB cable between the signal output part of video-splicing controller and the signal input part of splicing large screen.As required, video camera adopts web camera or analog video camera.

Shown in accompanying drawing, during application, if the video camera analog video camera then carries out video information coding through the front end encoding device, if the video camera web camera then carries out video information coding by himself.Last wall decoding unit carries out user's registration to higher level's video management server, and after succeeding in registration, last wall decoding unit has obtained station end facility information to higher level's video management server, and these information show in the PC management work station.The PC management work station calls the video traffic in the directory tree as required; Last wall decoding unit obtains corresponding video parameter and video flowing from higher level's video management server, and subordinate's platform station end arrives superior platforms through the video flowing after encoding through integrated data network.The PC management work station as required the video flowing that calls respectively successively through being presented on the large-size screen monitors video wall behind video switching matrix and the video-splicing controller, satisfy Police Command Center, control centre etc. to the unified demand of calling video resource on large-screen.

In conjunction with accompanying drawing, to move towards process with concrete video flowing below and explain the process that wall on the frequency resource is looked closely at transformer station video monitoring station, process is following:

1, the end video camera of standing is divided into two kinds of analog video camera and web cameras, and analog video camera is compiled through front end

Decoding apparatus is encoded, and web camera carries out encoding process voluntarily;

2, go up the wall decoding unit and carry out user's registration to higher level's video management server, after registration was accomplished, last wall decoding unit obtained station end facility information to higher level's video management server, and the information of obtaining shows in the PC management work station;

3, after the superior platforms registration, superior platforms learns that subordinate's platform is online to subordinate's platform through employing standard SIP flow process (Http Digest) authentication mode;

4, superior platforms is initiated INVITE and is asked subordinate's platform through the Streaming Media of PC management work station to subordinate's certain video source of platform request;

5, subordinate's platform sends the 1xx Temporary Response, and incoming call is accepted in the platform processes INVITE of subordinate request, returns the 200OK response, and superior platforms is sent ACK and replied;

6, media channel is opened, and carries out the media data transmission;

7, the PC management work station switches to the demonstration of carrying out various patterns on the different splicing large screens to each road video flowing as required;

8, the PC management work station stops browsing video, and superior platforms transmission/forwarding BYE stops this session, and subordinate's platform stops to send video flowing, postbacks 200OK and gives superior platforms;

9, push geocoding, preset point coding and the active state of the video camera that monitoring scene comprises then.

  

Claims (3)

1. a kind of substation video monitoring upper wall decoding system based on SIP protocol, it is characterized in that: comprise upper-level platform and lower-level platform, described lower-level platform comprises lower-level communication server, lower-level video management server, front-end coding equipment and a plurality of video cameras, so Above-mentioned upper level platform comprises upper level communication server, upper level video management server, upper wall decoding unit, PC management workstation, video switching matrix, video splicing controller and splicing big screen; The video signal input end of the device is connected, the video signal output end of the front-end encoding device is connected to the video signal input end of the lower-level video management server, and the short-distance communication between the communication port of the lower-level video management server and the lower-level communication server Port connection, the remote communication port of the lower communication server is connected with the remote communication port of the upper communication server, the short distance communication port of the upper communication server is connected with the communication port of the upper video management server, and the upper video The video signal output end of the management server is connected to the signal input end of the wall decoding unit, the control signal input end of the wall decoding unit is connected to the control signal output end of the PC management workstation, and the wall decoding unit The video signal output end of the video switch matrix is connected to the signal input end of the video switching matrix, the signal output end of the video switching matrix is connected to the signal input end of the video splicing controller, and the signal output end of the video splicing controller is connected to the The signal input terminal of the mosaic large screen is connected. 2. The wall-mounted decoding system for substation video surveillance based on SIP protocol according to claim 1, characterized in that: between the telecommunication port of the lower-level communication server and the telecommunication port of the upper-level communication server, the integrated data network Connected, the video signal output end of the wall decoding unit and the signal input end of the video switching matrix are connected by a DVI cable, the signal output end of the video switching matrix is connected to the signal input of the video splicing controller The terminals are connected by a DVI/RGB cable, and the signal output terminal of the video splicing controller is connected with the signal input terminal of the large splicing screen by a DVI/RGB cable. 3. The SIP protocol-based wall-mounted decoding system for substation video surveillance according to claim 1, wherein the camera is a network camera or an analog camera.

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