Landslide Detection and Monitoring using Mems and Zigbee
International Journal of Electronics and Communication Engineering |
© 2015 by SSRG - IJECE Journal |
Volume 2 Issue 5 |
Year of Publication : 2015 |
Authors : S.Deepak Kumar and V.Jayachandra Naidu |
How to Cite?
S.Deepak Kumar and V.Jayachandra Naidu, "Landslide Detection and Monitoring using Mems and Zigbee," SSRG International Journal of Electronics and Communication Engineering, vol. 2, no. 5, pp. 31-36, 2015. Crossref, https://doi.org/10.14445/23488549/IJECE-V2I5P110
Abstract:
Landslide is a land sensation that incorporates an extensive variety of ground developments, for example, rock falls, profound disappointment of inclines and shallow garbage streams. Avalanches can happen in offshore,coastal and coastal situations. Avalanches are referred to likewise as landslips, droops or incline failure.Landslide causes extensive harm to the regular territory, environment, economy and different assets. Identification, checking and control are the three noteworthy issues with respect to Real-Time applications. For an expansive scale identification of flaw and observing the flaws is one of the imperative applications that prompt headway of numerous sort of innovations. In this paper a Landslide checking framework is proposed with coordinating MEMS and geo-physical sensors framing a remote network.In this framework all the information are gathered then all the readings are given to zigbee for transmission.This proposed framework helps in distinguishing the flaw and this paper additionally incorporates advancement and arrangement (investigation) of the sensors data utilizing Wireless sensor system
Keywords:
Wireless Sensor Network, Heterogeneous Networks, Landslide.
References:
[1] K. Mishra, S.K. Shukla, S. Dutta, S.K. Chaulya, G.M. Prasad, Detection of Land-Slide using Wireless Sensor Network, Proceedings of International Conference organized by IEEE, 2011.
[2] Thampi. P. K., Mathai. John, Sankar. G.,Sidharthan. S., Landslides: Causes, Control and MitigationT, (based on the investigations carried out by the Centre for Earth Science Studies, Trivandrum).
[3] P. D. Savvaidis, from stars to earth and culture, Existing LandSlide Monitoring Systems and Techniques, The Aristotle University of Thessaloniki, In honor of the memory of Prof. AlexandrosTsioumis,, 2003.
[4] Y.P. Sharda, Landslide Studies in India, Glimpse of Geoscience Research in India, The Indian report to IUGS, 2004-2008, Indian National Science Academy, Silver Jubilee Volume, 2009, pp 98-101.
[5] Ramesh, M. V., Real-time Wireless Sensor Network for Landslide Detection, Proceedings of the Third International Conference on Sensor Technologies and Applications, SENSORCOMM 2009, IEEE, Greece, June 18-23, 2009.
[6] Tien-wen seng, Ting-Ting wu, et.al., Reliable Data Broadcast for ZigBee Wireless Sensor Networks, Intelligent journal on smart sensing and intelligent systems, Vol 3, No. 3, September 2010.
[7] Dr. ManeeshaVinodini Ramesh, Wireless Sensor Network for Disaster Monitoring, Amrita Center for Wireless Networks and Applications, Amrita VishwaVidhyapeetham (Amrita University), India.
[8] Silvia Nittel, The Indo-US Science and Technology Forum, Workshop on Geo-spatial information for developing countries, jointly organized by IIT Bombay and University of Minnesota, December, 2009.
[9] Alberto Rosi, Nicola Bicocchi, Gabriella Castelli Marco Mamei, Franco Zambonelli, Land-slide Monitoring with Sensor Networks: Experiences and Lessons learnt from a Real-World deployment, International Journal on Signal and Imaging systems Engineering, Italy.
[10] LAN. Hengxing., ZHOU. Chenghu1., C. F. Lee., WANG .Sijing., WU. Faquan., Rainfall-induced landslide stability analysis in response to transient pore pressure - A case study of natural terrain landslide in Hong Kong.
[11] National Disaster Management Guidelines: Management of Landslides and Snow Avalanches, National Disaster Management Authority, Government of India, June-2009.
[12] Landslide Risk Treatment, Management of Landslides and Snow Avalanches, National Disaster Management Authority, Government of India, June-2009.
[13] Wang, G., and K. Sassa., Pore-pressure generation and movement of rainfall-induced landslide: Effect of grain size and fine-particle content, Engineering Geology Vol 69, Pages 109-125, 2003.
[14] Dr. Praveen Chaturvedi, Introduction to Wireless Sensor Networks, International Journal of Advanced Research in Computer Science and Software Engineering, ISSN NO: 2277 128X, Volume 2, Issue 10, October 2012.
[15] He Yueshun, Zhang Wei, The Research on Wireless Sensor Network for Landside Monitoring, International Journal on Smart Sensing and Intelligent Systems, VOL-6, NO:3, ISSN: 1178-5608, June-2013.
[16] DR. VidarKveldsvite, Norwegian Geotechnical University, The Aknes rock slope: Early warning system and emergency preparedness, Second India Disaster Management Congress,2009, NewDelhi.
[17] Gordon B. Bowden, Calibration of Geophone Micro-seismic Sensors, Stanford Linear Accelerator Center, Stanford University, LCLS-TN-03-6, October, 2003