Z. Yuce Et Al. , "A Comparative Investigation of Random Forest Regression and Artificial Neural Networks for Predicting Crack Growth Life of a Fighter Aircraft Wing Joint Under Spectrum Loading," Defence Science Journal , vol.74, no.1, pp.119-126, 2024
Yuce, Z. Et Al. 2024. A Comparative Investigation of Random Forest Regression and Artificial Neural Networks for Predicting Crack Growth Life of a Fighter Aircraft Wing Joint Under Spectrum Loading. Defence Science Journal , vol.74, no.1 , 119-126.
Yuce, Z., YAYLA, P., & TAŞKIN, A., (2024). A Comparative Investigation of Random Forest Regression and Artificial Neural Networks for Predicting Crack Growth Life of a Fighter Aircraft Wing Joint Under Spectrum Loading. Defence Science Journal , vol.74, no.1, 119-126.
Yuce, Zafar, PAŞA YAYLA, And Alev TAŞKIN. "A Comparative Investigation of Random Forest Regression and Artificial Neural Networks for Predicting Crack Growth Life of a Fighter Aircraft Wing Joint Under Spectrum Loading," Defence Science Journal , vol.74, no.1, 119-126, 2024
Yuce, Zafar Et Al. "A Comparative Investigation of Random Forest Regression and Artificial Neural Networks for Predicting Crack Growth Life of a Fighter Aircraft Wing Joint Under Spectrum Loading." Defence Science Journal , vol.74, no.1, pp.119-126, 2024
Yuce, Z. YAYLA, P. And TAŞKIN, A. (2024) . "A Comparative Investigation of Random Forest Regression and Artificial Neural Networks for Predicting Crack Growth Life of a Fighter Aircraft Wing Joint Under Spectrum Loading." Defence Science Journal , vol.74, no.1, pp.119-126.
@article{article, author={Zafar Yuce Et Al. }, title={A Comparative Investigation of Random Forest Regression and Artificial Neural Networks for Predicting Crack Growth Life of a Fighter Aircraft Wing Joint Under Spectrum Loading}, journal={Defence Science Journal}, year=2024, pages={119-126} }