This paper presents optimization of wireless sensor network (WSN) topology for forest fire detection. The sensors for this purpose are deployed in forest, grassland and open space, which have different attenuation properties in electromagnetic waves. For this reason, routers which receive signals from sensors and send them to the base station must be deployed considering these differences. In this work, we develop an optimization method for WSN topology based on simulated annealing considering the differences in the attenuation property. The vegetation data are taken from Landsat data. Using the present method, the necessary number of routers for full connection of the sensors deployed in diverse, irregular environments can be estimated.

N. Yulianti, H. Hayasaka, Usup. Recent forest and Peat Fire Trends in Indonesia, the Latest Decade by MODIS Hotspot Data, Global Environmental Research, AIRIES, 16-1(2012), 105-116.

R. Teguh, T. Honma, A.Usop, H. Shin, H.Igarashi. Detection and Verification of Potential Peat Fire Using Wireless Sensor Network and UAV. International Conference on Information technology and Electrical Engineering. Indonesia, 2012, 6-12.

Yoon, I., Noh, D.K., Lee, D., Teguh, R., Honma, T., Shin, H: Reliable Wildfire Monitoring with Sparsely Deployed Wireless Sensor Networks. IEEE 26th Int. Conf. Adv. Inf. Netw. Appl. Fukuoka, 2012, pp 460-466.

R,Teguh, R., Murakami, R, Igarashi, H. Optimization of Router Deployment for Sensor Networks Using Genetic Algorithm. 13th International Conference on Artificial Intelligence and Soft Computing ICAISC, Poland, 2014.

Sohraby, K., Minoli, D., Znati,T. Wireless sensor network technology, protocol, and application, Wiley interscience, 2007.

Heinzelman, W.R., Chandrakasan A., Balakrishnan, H. Energy-Efficient Communication Protocol for Wireless Microsensor Networks. System Sciences, 2000. Proceedings of the 33rd Annual Hawaii International Conference. 2000.

http://www.zigbee.org/

Vinh Tran Quang., Takumi Miyosi. An Algorithm for sensing coverage problem in wireless sensor networks. Sarnoff Symposium IEEE, 2008, 1-5.

T. Tamir. On Radio-wave Propagation in Forest Environment. IEEE Transactions on Antennas and Propagation includes theoretical and experimental advances in antennas. 15–6(1967), 806 – 817.

T. Tamir. Radio wave Propagation along mixed paths in Forest Environment. IEEE Transactions on Antennas and Propagation includes theoretical and experimental advances in antennas. 25-4(1977), 471–477.

Le-wei., Tat-Soon Yeo., Pang-Shyan Kooi., Mook-Seng Leong. Radio wave propagation along mixed paths through a four-layered model of rain forest: an analytic approach, 16-7(1998), 1098 - 1111.

Jose Antonio et al. Peer to peer wireless propagation measurements and path-loss modeling in vegetated environments, IEEE trans. Antennas and propagation, 61-6(2013), 3302-3311.

http://www.saga-gis.org/en/index.html