会议专题

Crack remote monitor and the application of a landslide in Panzhihua China

Crack displacement monitoring is an effective geological hazard monitoring technology. But the traditional manual measurements have been eliminated and the existing automatic monitoring equipments have lots of disadvantages for the low accuracy, high power consumption and low degree of practical drawbacks. In this paper, digital filtering and curve fitting techniques, GSM(Global System for Mobile Communications) and low power consumption control techniques have been adopted to develop a high-precision, low-power and unattended remote monitoring instrument named CUT-5000 Crack Remote Monitor System. In November 2009, we used CUT-5000 system to monitor the surface crack of Panzhihua airport 12# landslide. We have installed five monitoring nodes with an interval of about 80 meters turn parallel to the groove direction, and four kinds sensors with the range of 200mm, 350mm, 450mm and 700mm according to the crack width range have been used. Fourl.2V/2400mAh of NiMH rechargeable batteries have been used and the data acquisition interval is 136 minutes. At last, we obtained the first-hand monitoring data and successfully predicted an unstable landslide. Application results show that the CUT-5000 system can meet the practical application requirements because of its high accuracy, low power consumption, easy installation and other advantages and so the method is feasible and has some promotional value.

Geological hazard crack monitoring low power Panzhihua Landslide

Honghui Wang Xianguo Tuo Jianbo Yang Xiaoping Yu Tianbin Li Qiang Xu Dashun Xi

Key Laboratory of Earth Exploration and Information Technology of Ministry of Education, Chengdu Uni Key Laboratory of Earth Exploration and Information Technology of Ministry of Education, Chengdu Uni State Key Laboratory of Geo-hazard Prevention and Geo-environment Protection, Chengdu University of

国际会议

The 4th International Conference on Environmental and Engineering Geophysics(第四届环境与工程地球物理国际会议 ICEEG2010)

成都

英文

943-947

2010-06-14(万方平台首次上网日期,不代表论文的发表时间)