Cansiz, B. Et Al. 2025. Deep learning-driven feature engineering for lung disease classification through electrical impedance tomography imaging. Biomedical Signal Processing and Control , vol.100 .

Cansiz, B., Kilinc, C. U., & SERBES, G., (2025). Deep learning-driven feature engineering for lung disease classification through electrical impedance tomography imaging. Biomedical Signal Processing and Control , vol.100.

Cansiz, Berke, Coskuvar Utkan Kilinc, And Görkem SERBES. "Deep learning-driven feature engineering for lung disease classification through electrical impedance tomography imaging," Biomedical Signal Processing and Control , vol.100, 2025

Cansiz, Berke Et Al. "Deep learning-driven feature engineering for lung disease classification through electrical impedance tomography imaging." Biomedical Signal Processing and Control , vol.100, 2025

Cansiz, B. Kilinc, C. U. And SERBES, G. (2025) . "Deep learning-driven feature engineering for lung disease classification through electrical impedance tomography imaging." Biomedical Signal Processing and Control , vol.100.

@article{article, author={Berke Cansiz Et Al. }, title={Deep learning-driven feature engineering for lung disease classification through electrical impedance tomography imaging}, journal={Biomedical Signal Processing and Control}, year=2025}