K. Tokgozoglu Et Al. , "Artificial neural networks to predict deformation modulus of rock masses considering overburden stress," GEOMECHANICS AND GEOENGINEERING-AN INTERNATIONAL JOURNAL , vol.18, no.1, pp.48-64, 2023
Tokgozoglu, K. Et Al. 2023. Artificial neural networks to predict deformation modulus of rock masses considering overburden stress. GEOMECHANICS AND GEOENGINEERING-AN INTERNATIONAL JOURNAL , vol.18, no.1 , 48-64.
Tokgozoglu, K., Aladag, Ç. H., & Gokceoglu, C., (2023). Artificial neural networks to predict deformation modulus of rock masses considering overburden stress. GEOMECHANICS AND GEOENGINEERING-AN INTERNATIONAL JOURNAL , vol.18, no.1, 48-64.
Tokgozoglu, K., ÇAĞDAŞ HAKAN ALADAĞ, And C. Gokceoglu. "Artificial neural networks to predict deformation modulus of rock masses considering overburden stress," GEOMECHANICS AND GEOENGINEERING-AN INTERNATIONAL JOURNAL , vol.18, no.1, 48-64, 2023
Tokgozoglu, K. Et Al. "Artificial neural networks to predict deformation modulus of rock masses considering overburden stress." GEOMECHANICS AND GEOENGINEERING-AN INTERNATIONAL JOURNAL , vol.18, no.1, pp.48-64, 2023
Tokgozoglu, K. Aladag, Ç. H. And Gokceoglu, C. (2023) . "Artificial neural networks to predict deformation modulus of rock masses considering overburden stress." GEOMECHANICS AND GEOENGINEERING-AN INTERNATIONAL JOURNAL , vol.18, no.1, pp.48-64.
@article{article, author={K. Tokgozoglu Et Al. }, title={Artificial neural networks to predict deformation modulus of rock masses considering overburden stress}, journal={GEOMECHANICS AND GEOENGINEERING-AN INTERNATIONAL JOURNAL}, year=2023, pages={48-64} }