E. UNCUOĞLU Et Al. , "Comparison of neural network, Gaussian regression, support vector machine, long short-term memory, multi-gene genetic programming, and M5 Trees methods for solving civil engineering problems," Applied Soft Computing , vol.129, 2022
UNCUOĞLU, E. Et Al. 2022. Comparison of neural network, Gaussian regression, support vector machine, long short-term memory, multi-gene genetic programming, and M5 Trees methods for solving civil engineering problems. Applied Soft Computing , vol.129 .
UNCUOĞLU, E., ÇITAKOĞLU, H., LATİFOĞLU, L., BAYRAM, S., Laman, M., İLKENTAPAR, M., ... ÖNER, A. A.(2022). Comparison of neural network, Gaussian regression, support vector machine, long short-term memory, multi-gene genetic programming, and M5 Trees methods for solving civil engineering problems. Applied Soft Computing , vol.129.
UNCUOĞLU, ERDAL Et Al. "Comparison of neural network, Gaussian regression, support vector machine, long short-term memory, multi-gene genetic programming, and M5 Trees methods for solving civil engineering problems," Applied Soft Computing , vol.129, 2022
UNCUOĞLU, ERDAL Et Al. "Comparison of neural network, Gaussian regression, support vector machine, long short-term memory, multi-gene genetic programming, and M5 Trees methods for solving civil engineering problems." Applied Soft Computing , vol.129, 2022
UNCUOĞLU, E. Et Al. (2022) . "Comparison of neural network, Gaussian regression, support vector machine, long short-term memory, multi-gene genetic programming, and M5 Trees methods for solving civil engineering problems." Applied Soft Computing , vol.129.
@article{article, author={ERDAL UNCUOĞLU Et Al. }, title={Comparison of neural network, Gaussian regression, support vector machine, long short-term memory, multi-gene genetic programming, and M5 Trees methods for solving civil engineering problems}, journal={Applied Soft Computing}, year=2022}