GEOSENSOR NETWORK FOR REAL TIME MONITORING OF CHARACTERISTIC PARAMETERS ON LABORATORY BRIDGE STRUCTURE MODEL
DOI:
https://doi.org/10.24867/18KG05TunguzKeywords:
Bridge, geosensor network, near real time monitoringAbstract
As part of the master's thesis, an analysis of the types of bridge structures was performed with special reference to vital parameters that would be monitored by a real-time geosensor network. After defining the required set of parameters, the sensors that make up the geosensor network were selected and the general hardware configuration of the geosensor network was proposed. Real-time user monitoring applications are configured. On the prepared laboratory model of the bridge structure, measurements of static and dynamic loads were performed with the assessment of accuracy. An analysis of the results was performed and final recommendations were defined.
References
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[2] Bin Chen, Xu Wang, Dezhang Sun, Xu Xie, Integrated System of Structurah Health Monitoring and Intelligent Management for a Cable-Stayed Bridge, Jul 2014.
[3] Panagiotis Papanikolas, Aris Stathopoulos,-Vlamis, Akis Panagis, The structurah health monitoring system of Rion Antirion “Charilaos Trikoupis”, IBSBI 2011, October 13-15, 2011, Athens, Greece.
[4] Brock Hedegaard, Cathrine E. W. French, Carol K. Shield, Time-Dependent Monitoring and Modelling of I-35W St. Anthony Falls Bridge. I: Analysis of Monitoring Data, Jul 2017.
[5] Adam Hoag, Neil A. Hoult, W. Andy Take, Fernando Moreu, Hoat Le, Vamsi Tolikonda, Measuring displacements of a railroad bridge using DIC and accelerometers, February 2017.
[6] Jang, H. Jo, Soojin Cho, K. Mechitov, J. Rice, S. Sim, Hyung-Jo Jung, C. Yun, B. Spencer, G. Agha, Structural health monitoring of a cable-stayed bridge using smart sensor technology deployment and evaluation,2010.
[7] Ковачевић. Д., Радоњанин В., Малешев М., Лађиновић Ђ., Ранковић С., Радишић С., Ковачевић И. Систем за мониторинг новог Железничко-друмског моста у Новом Саду.
[8] M.J. Chae, H.S. Yoo, J.Y. Kim, M.Y. Cho, Development of a wireless sensor network system for suspension bridgehealth monitoring, Korea Institute of Construction Technology, Republic of Korea.
[9] Werner Lienhart, Fritz K. Brunner, MONITORING OF BRIDGE DEFORMATIONS USING EMBEDDED FIBER OPTICAL SENSORS, Graz University of Technology, Engineering Geodesy and Measurement Systems, Steyrergasse 30, 8010 Graz, Austria.
[10] J.K Leea, J.S. Parkb, G.W.Robertsa, O. Oluropoa, D.J. Moon, Study on Issues of Tilt-meters and Utilization of GPS in Bridge Monitoring System(BMS).
[11] Alojz KOPÁČIK, Imrich LIPTÁK,Ján ERDÉLYI, Peter KYRINOVIČ, Deformation monitoring of Danube bridges in Slovakia by integrated measurement system.
[12] Kai-Yuen Wong, Instrumentation and health monitoring ofcable-supported bridges.
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Published
2022-08-08
Issue
Section
Geodesy Engineering
