现有传感器的桥梁无线检测技术初探被引量：3

Bridges Wireless Detection Techniques of Existing Sensors

下载PDF

导出

摘要桥梁是交通发展过程中最为主要的设施之一,其不仅能够为交通提供更多的空间,同时还可跨越峡谷、河流等特殊地理环境,增加人类的活动面积。因此,桥梁的质量与世界各国或地区的经济发展、人文生活等均息息相关,桥梁的损伤、老化等的检测技术也就成为了预防桥梁事故、延长使用寿命的主要手段。无线检测技术是现代较为先进的工程质量测试技术,其具有成本低、数据稳定性强、使用寿命长等诸多特点。是对基于传感器的无线检测技术进行研究,探讨了无线传感器网络和桥梁无线检测系统网络化,并针对于静态和动态应变测试系统的设计方式进行阐述。 The bridge is one of the most major transport development process facilities, which not only provide more space for traffic, but also the special geographical environment across canyons and rivers, increasing the area of human activities. Therefore, the quality of the bridge and economic development, human life or regions around the world etc closely, bridge damage, aging and other detection technology has become a bridge accident prevention, the main means to extend the life. Wireless detection technology is more advanced modem engineering quality testing technology, which has a low cost, high data stability, long life and many other features. This article is performed on wireless sensor-based detection technology research, discussed wireless sensor networks and wireless bridge detection system network, and for the conduct set forth in the static and dynamic strain measurement system design approach, with a view to provide a reference for related work.

作者陈鹏

机构地区山东高速工程检测有限公司

出处《建筑技术开发》 2016年第3期140-140,144,共2页 Building Technology Development

关键词桥梁传感器无线检测技术 bridge sensors wireless detection technology

分类号 U446.2 [建筑科学—桥梁与隧道工程]

引文网络
相关文献

参考文献1

1俞姝颖,吴小兵,陈贵海,戴海鹏,洪卫星.无线传感器网络在桥梁健康监测中的应用[J].软件学报,2015,26(6):1486-1498. 被引量：51

二级参考文献44

1Lynch JP, Loh KJ. A summary review of wireless sensors and sensor networks for structural health monitoring. The Shock and Vibration Digest, 2006,38(2):91-128. [doi: 10.1177/0583102406061499].
2Farrar CR, Keith Worden K. An introduction to structural health monitoring. Philosophical Trans. of the Royal Society, 2007,365: 303-315. [doi: 10.1098/rsta.2006.1928].
3Harms T, Sedigh S, Bastianini F. Structural health monitoring of bridges using wireless sensor networks. IEEE Instrumentation & Measurement Magazine, 2010,13 (6): 14-18. [dol: 10.1109/MIM.2010.5669608].
4Wang P, Yah Y, Tian GY, Bouzid O, Ding ZG. Investigation of wireless sensor networks for structural health monitoring. Journal of Sensors, 2012:1-7. Idol: 10.1155/2012/156329].
5Zhou GD, Yi TH. Recent developments on wireless sensor networks technology for bridge health monitoring. Mathematical Problems in Engineering, 2013:1-33.
6Kim S, Pakzad S, Culler D, Demmel J. Health monitoring of civil infrastructures using wireless sensor networks. In: Proc. of the 6th Int'l Conf. on Information Processing in Sensor Networks (IPSN). New York: ACM Press, 2007. 254-263. [doi: 10A 109/IPSN. 2007.4379685].
7Xiao H, Gong YX, Ogai H, Zhang J, Zou XH, Otawa T, Tsuji T. A data collection system in wireless network integrated WSN and zigbee for bridge health diagnosis. In: Proe. of the Society of Instrument and Control Engineers (SICE) Annual Conf. 2011. 2024-2028.
8Chae M J, Yoo HS, Kim JY, Cho MY. Development of a wireless sensor network system for suspension bridge health monitoring. Automation in Construction, 2012,21:237-252. [doi: 10.1016/j.auteon.2011.06.008].
9Akyildiz IF, Su W, Sankarasubramaniam Y, Cayirci E. A survey on sensor networks. IEEE Communications Magazine, 2002,40(8): 102-114. [doi: 10.1109/MCOM.2002.1024422].
10Yiek J, Mukherjee B, Ghosal D. Wireless sensor network survey. Computer Networks, 2008,52(12):2292-2330. Idol: 10.1016/j. comnet.2008.04.002].