E. Kahya Et Al. , "Energy Dissipation in Rough Chute: Experimental Approach Versus Artificial Intelligence Modeling," In Intelligent Data Analytics for Decision-Support Systems in Hazard Mitigation , Singapore: Springer-Verlag , 2020, pp.227-249.
Kahya, E. Et Al. Energy Dissipation in Rough Chute: Experimental Approach Versus Artificial Intelligence Modeling. 2020. In Intelligent Data Analytics for Decision-Support Systems in Hazard Mitigation , Springer-Verlag , Singapore, 227-249.
Kahya, E., Kim, S., Ghorbani, M. A., Karimi, V., Malik, A., & Salmasi, F., (2020). Energy Dissipation in Rough Chute: Experimental Approach Versus Artificial Intelligence Modeling. Intelligent Data Analytics for Decision-Support Systems in Hazard Mitigation (pp.227-249), Singapore: Springer-Verlag .
Kahya, Ercan Et Al. "Energy Dissipation in Rough Chute: Experimental Approach Versus Artificial Intelligence Modeling." In Intelligent Data Analytics for Decision-Support Systems in Hazard Mitigation , 227-249. Singapore: Springer-Verlag , 2020
Kahya, Ercan Et Al. "Energy Dissipation in Rough Chute: Experimental Approach Versus Artificial Intelligence Modeling." Intelligent Data Analytics for Decision-Support Systems in Hazard Mitigation , Springer-Verlag , 2020, pp.227-249.
Kahya, E. Et Al. (2020) "Energy Dissipation in Rough Chute: Experimental Approach Versus Artificial Intelligence Modeling", Intelligent Data Analytics for Decision-Support Systems in Hazard Mitigation . Singapore: Springer-Verlag .
@bookchapter{bookchapter, author ={Ercan Kahya Et Al. }, chaptertitle={Energy Dissipation in Rough Chute: Experimental Approach Versus Artificial Intelligence Modeling}, booktitle={ Intelligent Data Analytics for Decision-Support Systems in Hazard Mitigation}, publisher={Springer-Verlag }, city={Singapore},year={2020} }