S. Tanberk Et Al. , "A Hybrid Deep Model Using Deep Learning and Dense Optical Flow Approaches for Human Activity Recognition," IEEE Access , vol.8, no.2020, pp.19799-19809, 2020
Tanberk, S. Et Al. 2020. A Hybrid Deep Model Using Deep Learning and Dense Optical Flow Approaches for Human Activity Recognition. IEEE Access , vol.8, no.2020 , 19799-19809.
Tanberk, S., Kilimci, Z. H., Tükel, D., Uysal, M., & Akyokuş, S., (2020). A Hybrid Deep Model Using Deep Learning and Dense Optical Flow Approaches for Human Activity Recognition. IEEE Access , vol.8, no.2020, 19799-19809.
Tanberk, Senem Et Al. "A Hybrid Deep Model Using Deep Learning and Dense Optical Flow Approaches for Human Activity Recognition," IEEE Access , vol.8, no.2020, 19799-19809, 2020
Tanberk, Senem Et Al. "A Hybrid Deep Model Using Deep Learning and Dense Optical Flow Approaches for Human Activity Recognition." IEEE Access , vol.8, no.2020, pp.19799-19809, 2020
Tanberk, S. Et Al. (2020) . "A Hybrid Deep Model Using Deep Learning and Dense Optical Flow Approaches for Human Activity Recognition." IEEE Access , vol.8, no.2020, pp.19799-19809.
@article{article, author={Senem Tanberk Et Al. }, title={A Hybrid Deep Model Using Deep Learning and Dense Optical Flow Approaches for Human Activity Recognition}, journal={IEEE Access}, year=2020, pages={19799-19809} }