Başlık: Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment

N. Kizilkaya Öksüz Et Al. , "Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment," INDOOR AND BUILT ENVIRONMENT , vol.32, no.1, pp.116-132, 2023

Kizilkaya Öksüz, N. Et Al. 2023. Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment. INDOOR AND BUILT ENVIRONMENT , vol.32, no.1 , 116-132.

Kizilkaya Öksüz, N., Tanyer, A. M., & Pekeriçli, M. K., (2023). Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment. INDOOR AND BUILT ENVIRONMENT , vol.32, no.1, 116-132.

Kizilkaya Öksüz, NİLÜFER, ALİ MURAT TANYER, And MEHMET KORAY PEKERİÇLİ. "Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment," INDOOR AND BUILT ENVIRONMENT , vol.32, no.1, 116-132, 2023

Kizilkaya Öksüz, NİLÜFER K. Et Al. "Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment." INDOOR AND BUILT ENVIRONMENT , vol.32, no.1, pp.116-132, 2023

Kizilkaya Öksüz, N. Tanyer, A. M. And Pekeriçli, M. K. (2023) . "Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment." INDOOR AND BUILT ENVIRONMENT , vol.32, no.1, pp.116-132.

@article{article, author={NİLÜFER KIZILKAYA ÖKSÜZ Et Al. }, title={Fuzzy-based escape route fire-vulnerability assessment model for indoor built environment}, journal={INDOOR AND BUILT ENVIRONMENT}, year=2023, pages={116-132} }

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