Sub-1 GHz Network-Based Wireless Bridge-Monitoring System: Feature and Verification

Q2 Engineering
Li Hui, F. Hraib, M. Rahman, Miguel Vicente, R. Hindi
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引用次数: 0

Abstract

Traditional bridge monitoring systems often require wired connections between sensors, a data acquisition system, and data center. The use of extension wires, conduits, and other costly accessories can dramatically increase the total cost of bridge monitoring. With the development of wireless technologies and the notable cost benefits, many researchers have been integrating wireless networks into bridge monitoring system. In this study, a wireless bridge monitoring system has been developed based on the Sub-1 GHz network. The main functional components of this system include sensors, wireless nodes, gateway and data center. Wireless nodes can convert analog signals obtained from the sensors to digital signals, then transmit the collected data to the gateway using the Sub1 GHz network. The gateway receives and sorts data from different wireless nodes and then forwards these data to the data center wirelessly. All collected data are processed in the data center using the data processing software developed in this study. In order to validate the performance of the wireless system developed in this study, a steel girder bridge was monitored in the field during the concrete deck construction. The field results were also compared with the theoretical values obtained from finite element models to ensure the accuracy and reliability of the wireless system. The results indicate that the wireless bridge monitoring system developed in this study is effective and affordable. The Sub-1 GHz network can be a better solution for bridges with complicated site conditions because of the extended data transmission distance. Although the power consumption can be controlled by using low-power consumption components, including the power control in software design can also dramatically reduce the system’s power consumption.
基于sub - 1ghz网络的无线网桥监控系统:特点与验证
传统的桥梁监控系统通常需要在传感器、数据采集系统和数据中心之间进行有线连接。使用延长线、导管和其他昂贵的附件会大大增加桥梁监测的总成本。随着无线技术的发展和显著的成本效益,许多研究人员将无线网络集成到桥梁监控系统中。本研究基于sub - 1ghz网络,开发了一种无线网桥监控系统。该系统的主要功能包括传感器、无线节点、网关和数据中心。无线节点可以将传感器接收到的模拟信号转换为数字信号,然后利用Sub1 GHz网络将采集到的数据传输到网关。网关接收和整理来自不同无线节点的数据,然后将这些数据以无线方式转发到数据中心。所有采集的数据在数据中心使用本研究开发的数据处理软件进行处理。为了验证所开发的无线系统的性能,在混凝土桥面施工过程中对一座钢梁桥进行了现场监测。为了保证无线系统的精度和可靠性,还将实测结果与有限元模型的理论值进行了比较。结果表明,本研究开发的无线网桥监测系统是有效且经济实惠的。sub - 1ghz网络由于数据传输距离的延长,可以更好地解决现场条件复杂的网桥问题。虽然可以通过使用低功耗元件来控制功耗,但包括软件设计中的功耗控制也可以大大降低系统的功耗。
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来源期刊
SDHM Structural Durability and Health Monitoring
SDHM Structural Durability and Health Monitoring Engineering-Building and Construction
CiteScore
2.40
自引率
0.00%
发文量
29
期刊介绍: In order to maintain a reasonable cost for large scale structures such as airframes, offshore structures, nuclear plants etc., it is generally accepted that improved methods for structural integrity and durability assessment are required. Structural Health Monitoring (SHM) had emerged as an active area of research for fatigue life and damage accumulation prognostics. This is important for design and maintains of new and ageing structures.
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