Evaluating the optimal sensor placement for smoke detection
DOI:
https://doi.org/10.2298/YJOR140312002MKeywords:
Wireless Sensor Networks, smoke detectors, optimal placementAbstract
Wireless Sensor Networks (WSNs) consist of wireless sensor nodes, where the choice of their deployment scheme depends highly on the type of sensors, their application, and the environment they will operate in. The performance of WSNs can be affected if the network is deployed under different topologies. In this paper various strategies for positioning nodes in WSNs for fire detection (grid, triangular and strip) are discussed. We propose the proper placement of the smoke sensors to satisfy two important network design objectives: to maximize the network lifetime after fire ignition, and to achieve full coverage by using a minimum number of sensors (especially in a deterministic node deployment).References
Yick, J. et al., “Wireless sensor network survey,” Computer Networks, 52 (2008) 2292–2330.
Walter, K., “Development of an early warning information infrastructure using spatial web services technology”, International Journal of Digital Earth, 3 (4) (2010) 384-394.
Zhang, L. and Wang, G., “Design and Implementation of Automatic Fire Alarm System based on Wireless Sensor Networks,” Proceedings of the 2009 International Symposium on Information Processing (ISIP’09) Huangshan, P. R. China, 2009, 410-413.
Vujovic, V. et al., “Web Integration of REST Enabled Wireless Sensor Networks for Fire Detection,” International Conference on Applied Internet and Information Technologies, Zrenjanin, Serbia, 2013, 30-35.
Gottuk, D. T. et al., “Advanced fire detection using multisignature alarm algorithms”, Fire Safety Journal, 37 (4) (2002) 381-394.
Ramadan, R. and El-Rewini, H., “Deployment of Sensing Devices: A Survey,” [Online]: Available at: http://rabieramadan.org/papers/deployment%20survey.pdf
Younis, M. and Akkaya, K., “Strategies and Techniques for Node Placement in Wireless Sensor Networks: A Survey,” Ad Hoc Networks, 6 (4) (2008) 621–655.
Beutel, J., Romer, K., Ringwald, M. and Woehrle, M., “Development techniques for sensor networks?”, in Ferrari G. (Ed.) Sensor Networks, Signals and Communication Technology, Springer, Heidelberg, 2009, 219-248.
Sheela Sobana Rani, K. and Devarajan, N., “Multiobjective Sensor Node Deployment in Wireless Sensor Networks”, International Journal of Engineering Science and Technology (IJEST), 4 (4) (2012) 1262-1266.
Subir, H. et al., “A Lifetime Enhancing Node Deployment Strategy in WSN,” Future Generation Information Technology Lecture Notes, Computer Science, 5899 (2009) 295-307.
Mitra, R. and Nandy, D., “Node Deployment and the Impact of Relay Nodes in Wireless Sensor Network”, International Journal of Computer Science & Communication Networks, 2 (3) (2012) 358-363.
Meier, A. et al., “DiMo: Distributed Node Monitoring in Wireless Sensor Networks”, MSWiM’08, Vancouver, BC, Canada, 2008.
Castelo, C. C. et al., “Optimal Sensor Placement Strategy for Environmental Monitoring Using Wireless Sensor Networks”, 42nd South Eastern Symposium on System Theory, University of Texas at Tyler, Tyler, TX, USA, 2010.
Adlakha, S. and Srivastava, M., “Critical Density Thresholds for Coverage in Wireless Sensor Networks”, Proc. IEEE Wireless Comm. and Networking (WCNC), 2003, 1615-1620.
Wightman, P.M. and Labrador, M.A., “Topology Maintenance: Extending the Lifetime of Wireless Sensor Networks,” IEEE LATINCOM '09, 2009, 1-6.
Hadžiefendić, N., “Detekcija požara”, Beograd, 2006, [Online]: Available at: http://specinstalacije.etf.rs/predavan/glava_5/DojavaPozara.pdf
Cardei, M. and Wu, J., “Coverage in wireless sensor networks,” in Handbook of Sensor Networks, M. Ilyas and I. Magboub, Eds. USA: CRC Press, 2004, 19.1-19.10.
Vu, C. T., “An Energy-Efficient Distributed Algorithm for k-Coverage Problem in Wireless Sensor Networks”, Computer Science Theses, 2007, Paper 40.
Kar, K. and Banerjee, S., “Node placement for connected coverage in sensor networks”, in the Proceedings of the Workshop on Modeling and Optimization in Mobile, Ad Hoc and Wireless Networks, (WiOpt’03), Sophia Antipolis, France, 2003.
Pyrosim software tool: [Online]: Available at: http://www.thunderheadeng.com/pyrosim/
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