CN105139636A - Electricity consumption information collection mesh communication network based on light reconfigurable wireless communication - Google Patents

Abstract

The present invention relates to the electricity information collection communication technology, particularly to an electricity consumption information collection mesh communication network based on light reconfigurable wireless communication. With the present invention, the problem that the existing electricity consumption information collection network lacks in the reasonable network topology structure is solved. The electricity consumption information collection mesh communication network comprises an information collection part, a wireless terminal part, a wireless base station part, a master station part and a transmission medium part, wherein the information collection part comprises a plurality of electricity sensors and a plurality of optical fiber slave interfaces, the wireless terminal part comprises an optical fiber main interface, a SoC chip and a radio frequency module, the wireless base station part comprises a base transceiver station, an access router, a DHCP slave server, a local server, a DHCP client terminal and a management agent node, and the master station part comprises a gateway, an access security platform, a remote server, a DHCP master server, and a management server. The electricity consumption information collection mesh communication network of the present invention is suitable for the collection communication of the electricity consumption information.

Description

Power information based on light-duty restructural radio communication gathers mesh communication net

Technical field

The present invention relates to power information collection communication technology, specifically a kind of power information based on light-duty restructural radio communication gathers mesh communication net.

Background technology

At present, the collection communication of power information mainly relies on power information collection communication network to realize.Under prior art conditions, power information collection communication network limit due to self structure, there are the following problems: existing power information collection communication network generally lacks rational network topology structure, cause the problem of its ubiquity fluctuation of service, poor reliability, directly affect the stability of power information collection, reliability, real-time, security thus.Based on this, be necessary to invent a kind of brand-new power information collection communication network, to solve the problem that existing power information collection communication network lacks rational network topology structure.

Summary of the invention

The present invention lacks the problem of rational network topology structure in order to solve existing power information collection communication network, provide a kind of power information based on light-duty restructural radio communication and gather mesh communication net.

The present invention adopts following technical scheme to realize: the power information based on light-duty restructural radio communication gathers mesh communication net, comprises information acquisition part, wireless terminal part, wireless base station part, main website part, transmission medium part; Described information acquisition part comprises multiple electrical quantity sensor, multiple optical fiber from interface; Described wireless terminal part comprises optical fiber main interface, SoC chip, radio-frequency module; Described wireless base station part comprises base transceiver station, couple in router, DHCP from server, home server, dhcp client, administration agent node; Described main website part comprises gateway, access security platform, remote server, DHCP master server, management server; Described transmission medium part comprises optical fiber, 4G passage, SDH special line, C & M passage; Wherein, each electrical quantity sensor and each optical fiber connect one to one from interface; Each optical fiber is interconnected to constitute fully connected topology from interface and optical fiber main interface between two by optical fiber; Optical fiber main interface is connected with SoC chip; SoC chip is connected with radio-frequency module; Radio-frequency module is by 4G passage and base transceiver station wireless connections; Base transceiver station is connected with couple in router; Couple in router is connected from server, home server, dhcp client, administration agent node with DHCP respectively; Couple in router is connected with gateway with C & M passage respectively by SDH special line; Gateway, access security platform, remote server, DHCP master server, management server are interconnected to constitute fully connected topology between two by optical fiber.

Specific works process is as follows: the power information of each each consumer of electrical quantity sensor Real-time Collection, and the power information collected is sent to each optical fiber in real time from interface.The power information received is sent to optical fiber main interface from interface by optical fiber by each optical fiber in real time.The power information received is sent to SoC chip by optical fiber main interface in real time.The power information received is sent to radio-frequency module by SoC chip in real time.The power information real-time radio received is sent to base transceiver station by 4G passage by radio-frequency module.The power information received is sent to couple in router by base transceiver station in real time.The power information real-time synchronization received is sent to DHCP from server, home server, dhcp client, administration agent node by couple in router, and by SDH special line and C & M passage, the power information received is sent to gateway in real time.The power information real-time synchronization received is sent to access security platform, remote server, DHCP master server, management server by optical fiber by gateway.

Based on said process, compared with existing power information collection communication network, power information based on light-duty restructural radio communication of the present invention gathers mesh communication netting gear and has the following advantages: the power information based on light-duty restructural radio communication of the present invention gathers mesh communication net and adopts each optical fiber to constitute first fully connected topology from interface and optical fiber main interface, adopts gateway, access security platform, remote server, DHCP master server, management server constitutes second fully connected topology, and it is by utilizing fully connected topology reliability high, various type shape can be set up into, net interior nodes shared resource is easy, the information flow-rate that can improve circuit distributes, optimal path can be selected, the advantage that transmission delay is little, has possessed rational network topology structure, and it combines optical fiber bandwidth simultaneously, loss is low, lightweight, antijamming capability is strong, fidelity is high, the advantage of dependable performance, therefore its operation is more stable, better reliability, thus effectively ensure that the stability that power information gathers, reliability, real-time, security.

The present invention efficiently solves the problem that existing power information collection communication network lacks rational network topology structure, is applicable to the collection communication of power information.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Embodiment

Power information based on light-duty restructural radio communication gathers mesh communication net, comprises information acquisition part, wireless terminal part, wireless base station part, main website part, transmission medium part; Described information acquisition part comprises multiple electrical quantity sensor, multiple optical fiber from interface; Described wireless terminal part comprises optical fiber main interface, SoC chip, radio-frequency module; Described wireless base station part comprises base transceiver station, couple in router, DHCP from server, home server, dhcp client, administration agent node; Described main website part comprises gateway, access security platform, remote server, DHCP master server, management server; Described transmission medium part comprises optical fiber, 4G passage, SDH special line, C & M passage; Wherein, each electrical quantity sensor and each optical fiber connect one to one from interface; Each optical fiber is interconnected to constitute fully connected topology from interface and optical fiber main interface between two by optical fiber; Optical fiber main interface is connected with SoC chip; SoC chip is connected with radio-frequency module; Radio-frequency module is by 4G passage and base transceiver station wireless connections; Base transceiver station is connected with couple in router; Couple in router is connected from server, home server, dhcp client, administration agent node with DHCP respectively; Couple in router is connected with gateway with C & M passage respectively by SDH special line; Gateway, access security platform, remote server, DHCP master server, management server are interconnected to constitute fully connected topology between two by optical fiber.

During concrete enforcement, described electrical quantity sensor adopts WB1850 type three-phase electricity quantity sensor; Described SoC chip adopts SnapdragonMSM8226 type SoC chip; Described radio-frequency module adopts RA07M3340M type radio-frequency module; Described base transceiver station adopts ZXG10M8206 type base transceiver station; Described couple in router adopts QuidwayR1602 type couple in router; Described DHCP all adopts x3650M4 type server from server, home server, remote server, DHCP master server, management server; Described gateway adopts D-LinkDI-5200C type gateway.

Claims (2)

1. the power information based on light-duty restructural radio communication gathers a mesh communication net, it is characterized in that: comprise information acquisition part, wireless terminal part, wireless base station part, main website part, transmission medium part; Described information acquisition part comprises multiple electrical quantity sensor, multiple optical fiber from interface; Described wireless terminal part comprises optical fiber main interface, SoC chip, radio-frequency module; Described wireless base station part comprises base transceiver station, couple in router, DHCP from server, home server, dhcp client, administration agent node; Described main website part comprises gateway, access security platform, remote server, DHCP master server, management server; Described transmission medium part comprises optical fiber, 4G passage, SDH special line, C & M passage; Wherein, each electrical quantity sensor and each optical fiber connect one to one from interface; Each optical fiber is interconnected to constitute fully connected topology from interface and optical fiber main interface between two by optical fiber; Optical fiber main interface is connected with SoC chip; SoC chip is connected with radio-frequency module; Radio-frequency module is by 4G passage and base transceiver station wireless connections; Base transceiver station is connected with couple in router; Couple in router is connected from server, home server, dhcp client, administration agent node with DHCP respectively; Couple in router is connected with gateway with C & M passage respectively by SDH special line; Gateway, access security platform, remote server, DHCP master server, management server are interconnected to constitute fully connected topology between two by optical fiber.

2. the power information based on light-duty restructural radio communication according to claim 1 gathers mesh communication net, it is characterized in that: described electrical quantity sensor adopts WB1850 type three-phase electricity quantity sensor; Described SoC chip adopts SnapdragonMSM8226 type SoC chip; Described radio-frequency module adopts RA07M3340M type radio-frequency module; Described base transceiver station adopts ZXG10M8206 type base transceiver station; Described couple in router adopts QuidwayR1602 type couple in router; Described DHCP all adopts x3650M4 type server from server, home server, remote server, DHCP master server, management server; Described gateway adopts D-LinkDI-5200C type gateway.