Deep Learning Using Havrda-Charvat Entropy for Classification of Pulmonary Optical Endomicroscopy
Author:
Publisher
Elsevier BV
Subject
Biomedical Engineering,Biophysics
Reference43 articles.
1. In vivo assessment of the pulmonary microcirculation in elastase-induced emphysema using probe-based confocal fluorescence microscopy;Salaün;IntraVital,2012
2. Automated detection of uninformative frames in pulmonary optical endomicroscopy;Perperidis;IEEE Trans Biomed Eng,2017
3. A review: deep learning for medical segmentation using multi-modality fusion;Zhou;Array,2019
4. Minimum entropy clustering and applications to gene expression analysis;Li,2004
5. Neocognitron: a hierarchical neural network capable of visual pattern recognition;Fukushima;Neural Netw,1988
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