M. Bicer Et Al. , "Generative deep learning applied to biomechanics: A new augmentation technique for motion capture datasets," JOURNAL OF BIOMECHANICS , vol.144, 2022
Bicer, M. Et Al. 2022. Generative deep learning applied to biomechanics: A new augmentation technique for motion capture datasets. JOURNAL OF BIOMECHANICS , vol.144 .
Bicer, M., Phillips, A. T. M., Melis, A., McGregor, A. H., & Modenese, L., (2022). Generative deep learning applied to biomechanics: A new augmentation technique for motion capture datasets. JOURNAL OF BIOMECHANICS , vol.144.
Bicer, Metin Et Al. "Generative deep learning applied to biomechanics: A new augmentation technique for motion capture datasets," JOURNAL OF BIOMECHANICS , vol.144, 2022
Bicer, Metin Et Al. "Generative deep learning applied to biomechanics: A new augmentation technique for motion capture datasets." JOURNAL OF BIOMECHANICS , vol.144, 2022
Bicer, M. Et Al. (2022) . "Generative deep learning applied to biomechanics: A new augmentation technique for motion capture datasets." JOURNAL OF BIOMECHANICS , vol.144.
@article{article, author={Metin Bicer Et Al. }, title={Generative deep learning applied to biomechanics: A new augmentation technique for motion capture datasets}, journal={JOURNAL OF BIOMECHANICS}, year=2022}