CN104125437A - Star topology based power transmission line video and environment monitoring system - Google Patents

Abstract

The invention relates to the power transmission line monitoring technology, in particular to a star topology based power transmission line video and environment monitoring system. The star topology based power transmission line video and environment monitoring system solves the problem that an existing power transmission line video and environment monitoring network lacks reasonable network topologies. The star topology based power transmission line video and environment monitoring system comprises a terminal portion and a transmission medium portion, the terminal portion comprises wired network cameras, wired temperature sensors, tower inclination monitors, wireless access devices, a remote radio head, a wireless edge server, a network management server and an application server, the wired network cameras and a first wireless access device jointly form one star topology, the wired temperature sensors and a second wireless access device form one star topology, and the tower inclination monitors and a third wireless access device form one star topology. The star topology based power transmission line video and environment monitoring system is applicable to power transmission lines.

Description

Transmission line video and environmental monitoring system based on stelliform connection topology configuration

Technical field

The present invention relates to transmission line monitoring technology, specifically a kind of transmission line video and environmental monitoring system based on stelliform connection topology configuration.

Background technology

Existing transmission line is erected in the air mostly, the erosion that need to bear dust storm, heavy rain, ice and snow etc., and service conditions is very severe.Therefore,, in order to ensure the safe operation of transmission line, need to carry out video and environmental monitoring to transmission line.At present, mainly rely on transmission line video and Environmental Monitoring Network to realize for video and the environmental monitoring of transmission line.Under prior art condition, transmission line video and Environmental Monitoring Network are because self structure is limit, there are the following problems: existing transmission line video and Environmental Monitoring Network generally lack rational network topology structure, the problem that causes its ubiquity fluctuation of service, poor reliability, directly affects the safe operation of transmission line thus.Based on this, be necessary to invent a kind of brand-new transmission line video and Environmental Monitoring Network, lack the problem of rational network topology structure to solve existing transmission line video and Environmental Monitoring Network.

Summary of the invention

The present invention lacks the problem of rational network topology structure in order to solve existing transmission line video and Environmental Monitoring Network, a kind of transmission line video and environmental monitoring system based on stelliform connection topology configuration is provided.

The present invention adopts following technical scheme to realize: transmission line video and environmental monitoring system based on stelliform connection topology configuration, comprise terminal part and transmission medium part;

Described terminal part comprises wired network camera, wired temperature sensor, shaft tower inclination monitor, wireless access device, remote radio head, wireless edge server, network management server, application server;

Described transmission medium part comprises power line, radio universal serial bus, optical fiber;

Wherein, the number of the number of the number of wired network camera, wired temperature sensor, shaft tower inclination monitor is multiple; The number of wireless access device is three;

Each wired network camera is all connected with first wireless access device by power line, and each wired network camera and first wireless access device form stelliform connection topology configuration jointly;

Each wired temperature sensor is all connected with second wireless access device by power line, and each wired temperature sensor and second wireless access device form stelliform connection topology configuration jointly;

Each shaft tower inclination monitor is all connected with the 3rd wireless access device by power line, and each shaft tower inclination monitor and the 3rd wireless access device form stelliform connection topology configuration jointly;

Each wireless access device and remote radio head all with radio universal serial bus wireless connections, and each wireless access device, remote radio head, radio universal serial bus form bus type topological structure jointly;

Remote radio head is connected with wireless edge server;

Wireless edge server is connected with network management server and application server by optical fiber respectively.

Specific works process is as follows:

Each wired network camera gathers the video data of transmission line, and by power line, the video data transmitting collecting is delivered to first wireless access device.The service data receiving is sent to radio universal serial bus by first wireless access device.

Each wired temperature sensor gathers the temperature data of transmission line, and by power line, the temperature data collecting is sent to second wireless access device.The temperature data receiving is sent to radio universal serial bus by second wireless access device.

Each shaft tower inclination monitor gathers the shaft tower slope data of transmission line, and by power line, the shaft tower slope data that collect is sent to the 3rd wireless access device.The shaft tower slope data that receive are sent to radio universal serial bus by the 3rd wireless access device.

Remote radio head obtains video data, temperature data, shaft tower slope data by access radio universal serial bus, and the video data getting, temperature data, shaft tower slope data are sent to wireless edge server.

Wireless edge server is sent to respectively network management server and application server by optical fiber by the video data receiving, temperature data, shaft tower slope data.

Based on said process, compared with existing transmission line video and Environmental Monitoring Network, transmission line video and the environmental monitoring system tool based on stelliform connection topology configuration of the present invention has the following advantages:

Transmission line video and environmental monitoring system based on stelliform connection topology configuration of the present invention adopts wired network camera and wireless access device to form first stelliform connection topology configuration, adopt wired temperature sensor and wireless access device to form second stelliform connection topology configuration, adopt shaft tower inclination monitor and wireless access device to form the 3rd stelliform connection topology configuration, adopt wireless access device, remote radio head, radio universal serial bus has formed bus type topological structure, and it is by utilizing stelliform connection topology configuration simple in structure, control simple, failure diagnosis and isolation are easily, convenient service, the advantage of favorable expandability, and simple in structure in conjunction with bus type topological structure, needed transmission medium is few, without Centroid, the fault of any node can not cause the whole network paralysis, reliability is high, be easy to the advantage expanding, possessed rational network topology structure, it combines power line simultaneously does not need again to set up, as long as the advantage that live wire just can carry out data transmission, therefore its operation is more stable, better reliability, thus the safe operation of transmission line effectively ensured.

The present invention efficiently solves the problem that existing transmission line video and Environmental Monitoring Network lack rational network topology structure, is applicable to transmission line.

Brief description of the drawings

Fig. 1 is structural representation of the present invention.

Embodiment

Transmission line video and environmental monitoring system based on stelliform connection topology configuration, comprise terminal part and transmission medium part;

Described terminal part comprises wired network camera, wired temperature sensor, shaft tower inclination monitor, wireless access device, remote radio head, wireless edge server, network management server, application server;

Described transmission medium part comprises power line, radio universal serial bus, optical fiber;

Wherein, the number of the number of the number of wired network camera, wired temperature sensor, shaft tower inclination monitor is multiple; The number of wireless access device is three;

Each wired network camera is all connected with first wireless access device by power line, and each wired network camera and first wireless access device form stelliform connection topology configuration jointly;

Each wired temperature sensor is all connected with second wireless access device by power line, and each wired temperature sensor and second wireless access device form stelliform connection topology configuration jointly;

Each shaft tower inclination monitor is all connected with the 3rd wireless access device by power line, and each shaft tower inclination monitor and the 3rd wireless access device form stelliform connection topology configuration jointly;

Each wireless access device and remote radio head all with radio universal serial bus wireless connections, and each wireless access device, remote radio head, radio universal serial bus form bus type topological structure jointly;

Remote radio head is connected with wireless edge server;

Wireless edge server is connected with network management server and application server by optical fiber respectively.

When concrete enforcement, described wired network camera is WV-SP509H type wired network camera; Described wired temperature sensor is the wired temperature sensor of DS18B20 type; Described shaft tower inclination monitor is TLKS-PMG-QX type shaft tower inclination monitor; Described wireless access device is CISCO AIR-CAP1602I-C-K9 type wireless access device; Described remote radio head is 800M CDMA/LTE bimodulus Micro remote radio head; Described wireless edge server, described network management server, described application server are x3650 M4 type server.

Claims (2)

1. transmission line video and the environmental monitoring system based on stelliform connection topology configuration, is characterized in that: comprise terminal part and transmission medium part;

Described terminal part comprises wired network camera, wired temperature sensor, shaft tower inclination monitor, wireless access device, remote radio head, wireless edge server, network management server, application server;

Described transmission medium part comprises power line, radio universal serial bus, optical fiber;

Wherein, the number of the number of the number of wired network camera, wired temperature sensor, shaft tower inclination monitor is multiple; The number of wireless access device is three;

Each wired network camera is all connected with first wireless access device by power line, and each wired network camera and first wireless access device form stelliform connection topology configuration jointly;

Each wired temperature sensor is all connected with second wireless access device by power line, and each wired temperature sensor and second wireless access device form stelliform connection topology configuration jointly;

Each shaft tower inclination monitor is all connected with the 3rd wireless access device by power line, and each shaft tower inclination monitor and the 3rd wireless access device form stelliform connection topology configuration jointly;

Each wireless access device and remote radio head all with radio universal serial bus wireless connections, and each wireless access device, remote radio head, radio universal serial bus form bus type topological structure jointly;

Remote radio head is connected with wireless edge server;

Wireless edge server is connected with network management server and application server by optical fiber respectively.

2. transmission line video and the environmental monitoring system based on stelliform connection topology configuration according to claim 1, is characterized in that: described wired network camera is WV-SP509H type wired network camera; Described wired temperature sensor is the wired temperature sensor of DS18B20 type; Described shaft tower inclination monitor is TLKS-PMG-QX type shaft tower inclination monitor; Described wireless access device is CISCO AIR-CAP1602I-C-K9 type wireless access device; Described remote radio head is 800M CDMA/LTE bimodulus Micro remote radio head; Described wireless edge server, described network management server, described application server are x3650 M4 type server.