Bridge strain monitoring system and method based on WIFI communication technology

A technology of strain monitoring and communication technology, which is applied in the field of bridge strain monitoring system based on WIFI communication technology, which can solve problems such as low data rate, wireless networking protocol to deal with network conflicts, and limit data transmission rate

Pending Publication Date: 2018-09-14
SOUTH CHINA UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
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AI Technical Summary

Problems solved by technology

[0004] ZigBee technology has the disadvantages of short distance and low data rate. Because ZigBee does not support the channel access method of time division multiplexing, there is an occasional delay phenomenon.
The transmission distance of Bluetooth technology has great limitations, high-speed frequency hopping limits the rate of data transmission, and the maximum number of nodes

Method used

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  • Bridge strain monitoring system and method based on WIFI communication technology
  • Bridge strain monitoring system and method based on WIFI communication technology
  • Bridge strain monitoring system and method based on WIFI communication technology

Examples

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Embodiment 1

[0056] Such as figure 1As shown, a bridge strain monitoring system based on WIFI communication technology includes multiple steel wire sensors set on the surface of key positions of the bridge, multiple WIFI vibrating wire collectors (WIFI STA), WIFI routers (WIFI AP), and host Computer acquisition software (WIFI STA); the plurality of WIFI vibrating wire collectors are connected with a plurality of vibrating wire strain sensors one by one by wires, and the plurality of WIFI vibrating wire collectors are connected with the host computer acquisition software through WIFI The wireless sensor network provided by the router communicates and establishes a TCP connection to automatically collect bridge structure strain data in real time; the steel string sensor is used to measure the frequency data of the bridge structure strain; the WIFI vibrating wire collector is connected to the steel string through a wire The two ends of the sensor are used to collect the frequency data of the ...

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PUM

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Abstract

The invention discloses a bridge strain monitoring system and method based on WIFI communication technology. The system comprises a string wire sensor arranged on the surface of a key position of a bridge, WIFI vibration wire collectors, a WIFI router and upper computer collection software, wherein each WIFI vibration wire collector comprises a controller, a power supply module, a high-voltage booster circuit, a signal conditioning circuit, a high-voltage switch and a WIFI wireless module; the WIFI vibration wire collectors are connected at two ends of the string wire sensor through leads, thestring wire sensor oscillates under high voltage excitation, and frequency signals are output to the WIFI vibration wire collectors; and the WIFI vibration wire collectors are communicated with the upper computer collection software through a wireless network provided by the WIFI router, and a TCP connection is established through the WIFI wireless module so as to automatically collect the straindata of a bridge structure in real time. The bridge strain monitoring system and method disclosed by the invention have the advantages that a WIFI mature protocol is utilized for avoiding self-designof a networking protocol, and a TCP/IP is adopted to ensure reliable communication processes.

Description

technical field [0001] The invention relates to the technical field of wireless sensors, in particular to a bridge strain monitoring system and method based on WIFI communication technology. Background technique [0002] At present, wired sensors are mostly used to measure the strain and stress of concrete in the monitoring process of bridge construction, that is, wired sensors are arranged before monitoring, and the measurement data is transmitted through wired cables. For the monitoring of long-span bridge structures, there are many measuring points and the distance between measuring points is far away. Obviously, there are problems such as high wiring costs and difficult wiring when using wired cables. Therefore, when permanent wiring is not allowed, it is more convenient and faster to use WIFI-based wireless vibrating wire strain sensors for monitoring and measurement, which can improve work efficiency and save various resources required for monitoring work. [0003] Th...

Claims

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Application Information

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IPC IPC(8): G08C17/02
CPCG08C17/02
Inventor 余晓琳贾布裕颜全胜陈双锐许洁炜杨铮陈宇轩辛锦炀解兵林罗宇蕃赵盈皓
Owner SOUTH CHINA UNIV OF TECH
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