Merih Göltaş, Tufan Demirel, İnci Çağlayan

Visibility Analysis of Fire Watchtowers Using GIS: A Case Study in Dalaman State Forest Enterprise

The determination of the forest fires locations as quickly as possible and accurately is very important for fighting forest fires. Therefore, fire watchtowers should be located on high peaks where watchtower staffs are able to watch most of the forested areas. In this study, Dalaman State Forest Enterprise was selected as first-degree fire- prone region, and visibility analysis has been performed to evaluate fire watchtowers network. Using Visibility Analysis technique of Geographic Information Systems (GIS), the location of each watchtower was evaluated separately and visible forested areas monitored by fire watchtowers were identified. Visibility analysis was conducted for 9 fire watchtowers which supervise the study area. In the study, forested areas observed by each individual watchtower and more than one watchtower, and also invisible forested areas were determined. The results showed that 47.2 % of forested area could be observed by fire watchtowers. In order to increase visibility percentage to more effective levels, new fire watchtowers should be established or inactive fire watchtowers could be moved to more suitable locations.

PDF

___

Akay, A.E., Sivrikaya, F., Yenilmez, N., Taylan, H., 2011. Evaluating Locations of Fire Watch Towers through Visibility Analysis in GIS Environment. In: 1st National Mediterranean and Environment Symposium, 22-24 October, Kahramanaraş, Turkey.
Akbulak, C., and Özdemir, M., 2008. The Application of the visibility analysis for fire observation towers in the Gelibolu Peninsula (NW Turkey) Using GIS. Proceedings of the Conference on Water Observation and Information System for Decision Support: BALWOIS (Balkan Water Observation and Information System) 27-31 May, Ohrid, Macedonia.
Akgul, M., Yurtseven, H., Gulci, S., Akay, A. E., 2017. Evaluation of UAV-and GNSS-Based DEMs for Earthwork Volume. Arabian Journal for Science and Engineering, 1-17. https://doi.org/10.1007/s13369-017-2811-9.
Artsybashev, E., 1984. Detection of forest fires. Forest fires and their control, Russian Translations Series 15:46-61.
ASF 2015. ASF radiometrically terrain corrected ALOS PALSAR products, Product guide. https://media.asf.alaska.edu/uploads/RTC/rtc_produ ct_guide_v1.2.pdf (Accessed 07.10.17)
Bignone, F., Umakawa, H., 2008. Assessment of ALOS PRISM digital elevation model extraction over Japan. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 37: 1135-1138.
Bilgili, E., and Küçük, Ö., 2001. The importance of fire fuel in determination of fire sensitivity degrees. 1st National Forestry Congress of Foresters' Association of Turkey. 19-20 March, Turkey.
Davis, K.P., 1959. Forest fire: control and use. McGraw-Hill Book Company Inc., New York
Fern, J., Carmona-Gal, R., Carranza-Gonz, L., 2008. A vision-based monitoring system for very early automatic detection of forest fires. Transactions on Ecology and the Environment 119: 161-170.
GDF. 1995. 285 Numbered Communiqué. https://www.ogm.gov.tr/ekutuphane/Tebligler/ (Accessed 07.10.17)
GDF. 2015. Forestry statistics. https://www.ogm.gov.tr/ekutuphane/Sayfalar/Istatisti kler (Accessed 07.10.17)
Korale, P., Pade, A., Varghese, A., Joshi, A., 2009. Mapping of forest fire risk zones and identification of suitable sites for fire watch towers using remote sensing and GIS. ISRS Symposium on Advances in Geo-spatial technologies with special emphasis on sustainable rainfed Agriculture, 17-19 September, Nagpur, India.
Küçük, Ö., Topaloğlu, O., Altunel, A.O., Çetin, M., 2017. Visibility analysis of fire lookout towers in the Boyabat State Forest Enterprise in Turkey. Environmental Monitoring and Assessment, 189(7): 329.
Millan-Garcia, L., Sanchez-Perez, G., Nakano, M., Toscano-Medina, K., Perez-Meana, H., Rojas- Cardenas, L., 2012. An early fire detection algorithm using IP cameras. Sensors, 12(5): 5670-5686.
Pompa-García, M., Solís-Moreno, R., Rodríguez- Téllez, E., Pinedo-Álvarez, A., Avila-Flores, D., Hernández-Díaz, C., Velasco-Bautista, E., 2010. Viewshed analysis for improving the effectiveness of watchtowers, in the north of Mexico. Open Forest Science Journal, 3: 17-22.
Rego, F. C., and Catry, F. X., 2006. Modelling the effects of distance on the probability of fire detection from lookouts. International Journal of Wildland Fire, 15(2): 197-202.
Ruiz, E., 2000. Detección La defensa contra incendios forestales. Fundamentos y experiencias, McGraw- Hill/Interamaricana de España.
Şahin, Y.G., and İnce, T., 2009. Early forest fire detection using radio-acoustic sounding system. Sensors, 9(3): 1485-1498.
Trisakti, B., and Julzarika, A., 2011. DEM Generation from Stereo Alos Prism and Its Quality Improvement. International Journal of Remote Sensing and Earth Sciences (IJReSES), 8: 41-48.
URL-1 https://vertex.daac.asf.alaska.edu/
Yuan, C., Zhang, Y., Liu, Z., 2015. A survey on technologies for automatic forest fire monitoring, detection, and fighting using unmanned aerial vehicles and remote sensing techniques. Canadian Journal of Forest Research, 45(7): 783-792.

European Journal of Forest Engineering-Cover

Yayın Aralığı: Yılda 2 Sayı
Başlangıç: 2015
Yayıncı: Forest Engineering and Technologies Platform

Arşiv