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Yangın ve Güvenlik Dergisi 182. Sayı (Nisan 2016)

YANGIN ve GÜVENL ø K SAYI 182 85 YANGIN - MAKALE ortalama kanal 7 reflektans × n × tan × m- lamaktad × r. Bu ilave test, yanl × ü alarma yol açacak ü ekilde belirli ayd × nlatma ko ü ullar × nda biokütle yanma i ü aretini taklit edebilecek olan kent ortam × ya da aç × ù a ç × km × ü toprak arazilerdeki pikselleri i ü aretlemek için tasarlanm × ü t × r. Bu hedef- ler ayn × zamanda, × s × /yüksek yans × tmal × kayna ù a olan daha fazla uzakl × ù × n ref- lektans anomalilerinin daha az s × kl × kta manifestasyonuna sebep oldu ù u kal × c × kent alan × tespitlerine biti ü ik olan piksel ile ba ù lant × l × olarak da görülebilmektedir. Multi-temporal analiz komponentini uy- gulanmas × û ekil 3 ’te gösterilmektedir. Bu ü ekil do ù u Çin üzerinde bir OLI görün- tüsü alt kümesi göstermektedir (yol/s × ra 119/41). Radyometrik olarak parlak kent- sel yap × lar ile ba ù lant × l × olan potansiyel yanl × ü alarmlar yang × n algoritmas × ç × kt × s × üzerinde de görülebilirler. Bu lokasyonla- r × n detayl × görsel incelemesi büyük yans × - t × c × çat × lara ve × s × egzozlar × na sahip olan fabrika ve di ù er tesisler ortaya ç × kartm × ü - t × r. Bu piksellere tamamlay × c × multi-tem- poral analiz testlerinin uygulanmas × bü- tün piksel lokasyonlar × n × n ba ü ar × l × ü ekilde yeniden s × n × fland × r × lmas × n × sa ù lam × ü ve bunlar × n kom ü u k × rsal alanlardaki gerçek biokütle yang × nlar × ndan ayr × labilmesini sa ù lam × ü t × r. Kaynaklar • Bu makaleye yönelik tamamlay × c × veri- ler ü u adreste mevcuttur: http://dx.doi. org/10.1016/j.rse.2015.08.032. • Anejionu, O. C. D., Blackburn, G. A., & Whyatt, J. D. (2014). Satellite survey of gas flares: Development and applica- tion of a Landsat-based technique in the Niger Delta. International Journal of Remote Sensing, 35(5), 1900–1925. • Asner, G. P., & Lobell, D. B. (2000). A biogeophysical approach for automa- ted SWIR unmixing of soils and vegeta- tion. 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Fire Information for Resource Management System: Arc- hiving and distributing MODIS active fire data. IEEE Transactions on Geoscience and Remote Sensing, 47, 72–79. • Dwyer, J., Pinnock, S., Grégoire, J. -M., & Pereira, J. M. C. (2000). Global spatial and temporal distribution of vegetation fire as determined from satellite obser- vations. International Journal of Remo- te Sensing, 21, 1289–1302. • Elvidge, C. D., Ziskin, D., Baugh, K. E., Tutt- le, B. T., Ghosh, T., Pack, D. W., ... Zhiz- hin, M. (2009). A fifteen year record of global natural gas flaring derived from satellite data. Energies, 2, 595–622. • Elvidge, C. D., Zhizhin, M., Hsu, F. -C., & Baugh, K. E. (2013). VIIRS nightfire: Sa- tellite pyrometry at night. Remote Sen- sing, 5, 4423–4449. • Flynn, L. P., Harris, A. J. L., &Wright, R. (2001). Improved identification of volcanic fea- tures using Landsat 7 ETM+. Remote Sen- sing of Environment, 78, 180–193. • Francis, P. W., & Rothery, D. A. (1987). 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