Fig. 1. Wireless sensor network system
Fig. 2. Panorama and typical cross section of reservoir dam (fill dam)
Fig. 3 Numerical analysis results
Fig. 4. Seepage table, pore pressure and factor of safety curves by numerical analysis
Fig. 5. System algorism for real time system assessment and prediction hazard
Table 1. Risk factor and measuring sensors on reservoir dam
References
- Anita, Rajesh, S., Sushabhan, C. and Bhupendra, S. (2015), Wireless disaster monitoring and management system for dams, International Conference on Intelligent Computing, Communication & Convergence (ICCC-2015), Conference Organized by Interscience Institute of Management and Technology, Bhubaneswar, Odisha, India, pp. 381-386.
- Peng, Hongwei. (2010), Wireless sensor networks based highway disaster hierarchy cooperation monitoring system, International Conference on Computational Intelligence and Software Engineering, Wuhan, China, pp. 10-12.
- Thinagaran Perumal., Md Nasir Sulaiman and Leong. C. Y. (2015), Internet of things (IoT) enabled water monitoring system, IEEE 4th Global Conference on Consumer Electronics (GCCE), Catrino, Malaysia, pp. 86-87.
- Wang, Z., Wang, Q. and Hao, X. (2009), The design of the remote water quality monitoring system based on WSN, 5th International Conference on Wireless Communications, Networking and Mobile Computing, Beijing, China, pp. 24-26.
- Yoo, C. H., Kim, I. H., Lee, S. J., Hwang, J. S. and Baek, S. C. (2018), Basic study on monitoring system of reservoir and leeve using wireless sensor network, Journal of Korean Geo-Environmental Society, Vol. 19, No. 1, pp. 25-30 (In Korean).