无线传感器网络技术的研究进展及其在地铁隧道中的应用挑战

Abstract
Figure/Table
References
Related Citation (15)

Download: PDF (0 KB) HTML (1 KB)
Export: BibTeX | EndNote (RIS)

Abstract The structures will deteriorate with the extension of service life after the completion of civil engineering infrastructures. Structural health monitoring systems are widely adopted to monitor the behavior of structures and evaluate the safety and durability of structures. The monitoring of urban subway tunnel structures is significant and difficult due to combined effects of ground water erosion and train vibration loads，wireless sensor network(WSN) technology provide a promising method to monitor subway tunnel structures. Wireless sensor network provide advantages in cost，size，flexibility and distributed intelligence，compared to traditional wired monitoring method. However，as a emerging technology，there are some limitations for the application of WSN in subway tunnel monitoring，such as signal attenuation inside tunnel，node deployment，time synchronization，limitation of battery. The state of the art in wireless sensor network technology is reviewed，recent research and application activities on monitoring of civil infrastructures are briefly introduced. Challenges of the application of WSN in subway tunnel are analyzed and summarized，and the future research directions are discussed.

Key words： tunnelling engineering wireless sensor network subway tunnel structural health monitoring

Received: 20 May 2011

	Service

	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors

Cite this article:

URL:

https://rockmech.whrsm.ac.cn/EN/Y2011/V30/IS2/4047

[1] 欧进萍. 重大工程结构智能传感网络与健康监测系统的研究与应用[J]. 中国科学基金，2005，19(1)：8–12.(OU Jinping. Research and practice of smart sensor networks and health monitoring systems for civil infrastructures in mainland China[J]. Bulletin of National Natural Science Foundation of China，2005，19(1)：8–12.(in Chinese)) [2] JOHN E F. Materials for aesthetic，energy-efficient，and self-diagnostic buildings[J]. Science，2007，315：1 807–1 810. [3] SPENCER B F，RUIZ-SANDOVAL M E，KURATA N. Smart sensing technology：opportunities and challenges[J]. Structural Control Health Monitoring，2004，11(4)：349–368. [4] NAJAFI K. Smart sensors[J]. Journal of Micromechanics and Microengineering，1991，1(2)：86–102. [5] HOFMANN D. Intelligent measurements-new solutions for old problems[J]. Measurement，1994，13(1)：23–37. [6] SMITH G，BOWEN M. Considerations for the utilization of smart sensors[J]. Sensors and Actuators A：Physical，1995，47(1/3)：521–524. [7] RANKY P G. Smart sensors[J]. Sensor Review，2002，22(4)：312–318. [8] FARRAR C R，ALLEN D W，PARK G，et al. Coupling sensing hardware with data interrogation software for structural health monitoring[J]. Shock and Vibration，2006，13(4/5)：519–530. [9] SHEU J P，HSIEH K Y，CHENG P W. Design and implementation of mobile robot for nodes replacement in wireless sensor networks[J]. Journal of Information Science and Engineering，2008，24(2)：393–410. [10] BOCCA M，ERIKSSON L M，MAHMOOD A. A synchronized wireless sensor network for experimental modal analysis in structural health monitoring[J]. Computer-Aided Civil and Infrastructure Engineering，2011，26(5)：1–17. [11] TANNER N A，WAIT J R，FARRAR C R，et al. Structural health monitoring using modular wireless sensors[J]. Intelligent Material Systems and Structures，2003，14(1)：43–56. [12] HILL J，CULLER D. Mica：a wireless platform for deeply embedded networks[J]. IEEE Micro，2002，22(6)：12–24. [13] KLING R，ADLER R，HUANG J，et al. Intel mote-based sensor networks[J]. Structural Control Health Monitoring，2005，12(3/4)：469–479. [14] LYNCH J P，LOH K J. A summary review of wireless sensors and sensor networks for structural health monitoring[J]. The Shock and Vibration Digest，2006，38(2)：91–128. [15] CHO S，YUN C B，LYNCH J P，et al. Smart wireless sensor technology for structural health monitoring of civil structures[J]. International Journal of Steel Structures，2008，8(4)：267–275. [16] NAGAYAMA T，SPENCER B F，MECHITOV K A，et al. Middle ware services for structural health monitoring using smart sensors[J]. Smart Structures and Systems，2009，5(2)：119–137. [17] NAGAYAMA T，SPENCER B F，RICE J A. Autonomous decentralized structural health monitoring using smart sensors[J]. Structural Control and Health Monitoring，2009，16(7/8)：842–859. [18] RICE J A，MECHITOV K，SIM S H，et al. Flexible smart sensor framework for autonomous structural health monitoring[J]. Smart Structures and Systems，2010，6(5/6)：423–438 [19] LINDERMAN L E，RICE J A，BAROT S，et al. Characterization of wireless smart sensor performance[J]. Journal of Engineering Mechanics，2010，136(12)：1 435–1 443. [20] SIM S H，CARBONELL-Marquez J F，SPENCER B F，et al. Decentralized random decrement technique for efficient data aggregation and system identification in wireless smart sensor networks[J]. Probabilistic Engineering Mechanics，2011，26(1)：81–91. [21] HUANG C，TSENG Y. The coverage problem in a wireless sensor network[J]. Mobile Networks and Applications，2005，10(4)：519–528. [22] SHAKKOTTAI S，SRIKANT R，SHROFF N. Unreliable sensor grids：coverage，connectivity and diameter [J]. Ad Hoc Networks，2006，3(6)：702–716. [23] TANG J，HAO B，SEN A. Relay node placement in large scale wireless sensor networks[J]. Computer Communications，2006，29(4)：490–501. [24] GAO Y，SPENCER JR B F，RUIZ-SANDOVAL J M. Distributed computing strategy for structural health monitoring[J]. Structural Control & Health Monitoring，2006，13(1)：488–507. [25] JABBAR H，LEE S，CHOI S，et al. A novel sensing method and sensing algorithm development for a ubiquitous network[J]. Sensors，2010，10(9)：8 129–8 142. [26] ZIMMERMAN A T，LYNCH J P. A parallel simulated annealing architecture for model updating in wireless sensor networks[J]. IEEE Sensors Journal，2009，9(11)：1 503–1 510. [27] SIM S H，SPENCER B F，ZHANG M，et al. Automated decentralized modal analysis using smart sensors[J]. Structural Control and Health Monitoring，2010，17(8)：872–894. [28] PATRA J C，MEHER P K，CHAKRABORTY G. Development of laguerre neural-network-based intelligent sensors for wireless sensor networks[J]. IEEE Transaction on Instrument and Measurement，2011，60(3)：725–734. [29] SAZONOV E，LI H D，CURRY D，et al. Self-Powered Sensors for Monitoring of Highway Bridges[J]. IEEE Sensors Journal，2009，9(11)：1 422–1 429. [30] 李宏伟，欧进萍. 无线传感器网络在土木工程应用中的试验研究[J]. 计算机工程与应用，2005，41(15)：207–214.(LI Hongwei，OU Jinping. Research on the test of wireless sensor network for application in the civil engineering[J]. Computer Engineering and Applications，2005，41(15)：207–214.(in Chinese)) [31] 喻言，张春巍，李芦钰，等. 大型铺管船吊钩摆动监测的无线倾角传感器集成与测试[J]. 传感技术学报，2007，20(12)：2 716–2 719. (YU Yan，ZHANG Chunwei，LI Luyu，et al. Integration and test of wireless inclinometer sensor for swing monitoring of lager scale heavy derrick lay barges hook[J]. Chinese Journal of Sensors and Actuators，2007，20(12)：2 716–2 719.(in Chinese)) [32] 喻言，欧进萍. 海洋平台结构振动监测的无线传感实验研究[J]. 哈尔滨工业大学学报，2007，39(2)：187–190.(YU Yan，OU Jinping. Wireless sensing experiments for structural vibration monitoring of offshore platform[J]. Journal of Harbin Institute of Technology，2007，39(2)：187–190.( in Chinese)) [33] CHINTALAPUDI K，FU T，PAEK J，et al. Monitoring civil structures with a wireless sensor network[J]. IEEE Internet Computing，2006，10(2)：26–34. [34] LYNCH J P，WANG Y，LOH K J，et al. Performance monitoring of the Geumdang Bridge using a dense network of high-resolution wireless sensors[J]. Smart Materials and Structures，2006，15(6)：1 561–1 575. [35] ZIMMERMAN A T，SHIRAISHI M，SWARTZ R A，et al. Automated modal parameter estimation by parallel processing within wireless monitoring systems[J]. Journal of Infrastructure System，2008，14(1)：102–113. [36] JIANG H，CHEN L J，WU J，et al. A reliable and high-bandwidth multihop wireless sensor network for mine tunnel monitoring[J]. IEEE Sensors Journal，2009，9(11)：1 511–1 517. [37] HOULT N A，FIDLER P R A，HILL P G，et al. Long-term wireless structural health monitoring of the ferriby road bridge[J]. Journal of Bridge Engineering，2010，15(2)：153–159. [38] STAJANO F，HOULT N，WASSELL I，et al. Smart bridges，smart tunnels：Transforming wireless sensor networks from research prototypes into robust engineering infrastructure[J]. Ad Hoc Networks，2010，8(8)：872–888. [39] BENNETT P J，KOBAYASHI Y，SOGA K，et al. Wireless sensor network for monitoring transport tunnels[J]. Proceedings of the Institution of Civil Engineers-Geotechnical Engineering，2010，163(3)：147–156.