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A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal

H. Kuduz And F. Kaçar, "A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal," International Journal of Applied Methods in Electronics and Computers (IJAMEC) , vol.11, no.3, pp.165-173, 2023

Kuduz, H. And Kaçar, F. 2023. A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal. International Journal of Applied Methods in Electronics and Computers (IJAMEC) , vol.11, no.3 , 165-173.

Kuduz, H., & Kaçar, F., (2023). A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal. International Journal of Applied Methods in Electronics and Computers (IJAMEC) , vol.11, no.3, 165-173.

Kuduz, HACER, And Fırat Kaçar. "A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal," International Journal of Applied Methods in Electronics and Computers (IJAMEC) , vol.11, no.3, 165-173, 2023

Kuduz, HACER And Kaçar, Fırat. "A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal." International Journal of Applied Methods in Electronics and Computers (IJAMEC) , vol.11, no.3, pp.165-173, 2023

Kuduz, H. And Kaçar, F. (2023) . "A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal." International Journal of Applied Methods in Electronics and Computers (IJAMEC) , vol.11, no.3, pp.165-173.

@article{article, author={HACER KUDUZ And author={Fırat Kaçar}, title={A deep learning approach for human gait recognition from time-frequency analysis images of inertial measurement unit signal}, journal={International Journal of Applied Methods in Electronics and Computers (IJAMEC)}, year=2023, pages={165-173} }