21.14.1 Endoscopic Images, Enhancement

Shahidi, R., Bax, M.R., Maurer, Jr., C.R., Johnson, J.A., Wilkinson, E.P., Wang, B.[Bai], West, J.B., Citardi, M.J., Manwaring, K.H., Khadem, R.,
Implementation, calibration and accuracy testing of an image-enhanced endoscopy system,
MedImg(21), No. 12, December 2002, pp. 1524-1535.
IEEE Top Reference. 0301
BibRef

Koppel, D.[Dan], Wang, Y.F.[Yuan-Fang], Lee, H.[Hua],
Image-based view rendering in endoscopy,
IJIST(14), No. 5, 2004, pp. 181-185.
DOI Link 0412
BibRef
Earlier:
Viewing enhancement in video-endoscopy,
WACV02(304-308).
IEEE DOI 0303
BibRef

Koppel, D.[Dan], Chandrasekaran, S.[Shiv], Wang, Y.F.[Yuan-Fang],
A new framework for behavior modeling of organs and soft tissue using the Boundary-Element Methods,
NORDIA08(1-6).
IEEE DOI 0806
BibRef

Luo, X., McLeod, A.J., Pautler, S.E., Schlachta, C.M., Peters, T.M.,
Vision-Based Surgical Field Defogging,
MedImg(36), No. 10, October 2017, pp. 2021-2030.
IEEE DOI 1710
Poisson equation, biomedical optical imaging, cancer, endoscopes, frequency-domain analysis, image enhancement, image reconstruction, medical BibRef

Sdiri, B., Kaaniche, M., Cheikh, F.A., Beghdadi, A., Elle, O.J.,
Efficient Enhancement of Stereo Endoscopic Images Based on Joint Wavelet Decomposition and Binocular Combination,
MedImg(38), No. 1, January 2019, pp. 33-45.
IEEE DOI 1901
Surgery, Wavelet transforms, Image enhancement, Visualization, Wavelet domain, Biomedical imaging, binocular vision BibRef

Chen, L., Tang, W., John, N.W., Wan, T.R., Zhang, J.J.,
De-smokeGCN: Generative Cooperative Networks for Joint Surgical Smoke Detection and Removal,
MedImg(39), No. 5, May 2020, pp. 1615-1625.
IEEE DOI 2005
Endoscopy, image enhancement, machine learning, de-smoking BibRef

Xu, C.[Chi], Xu, H.Z.[Hao-Zheng], Giannarou, S.[Stamatia],
Distance Regression Enhanced With Temporal Information Fusion and Adversarial Training for Robot-Assisted Endomicroscopy,
MedImg(43), No. 11, November 2024, pp. 3895-3908.
IEEE DOI 2411
Training, Task analysis, Noise, Feature extraction, Probes, Robots, Generative adversarial networks, Cross-attention, endomicroscopy, regression BibRef

Ren, W.Q.[Wen-Qi], Liu, S.F.[Si-Fei], Ma, L.[Lin], Xu, Q.Q.[Qian-Qian], Xu, X.Y.[Xiang-Yu], Cao, X.C.[Xiao-Chun], Du, J.P.[Jun-Ping], Yang, M.H.[Ming-Hsuan],
Low-Light Image Enhancement via a Deep Hybrid Network,
IP(28), No. 9, Sep. 2019, pp. 4364-4375.
IEEE DOI 1908
image enhancement, recurrent neural nets, content stream, encoder-decoder network, edge stream, edge details, auto-encoder, recurrent neural network BibRef

Jiang, Q.P.[Qiu-Ping], Mao, Y.D.[Yu-Dong], Cong, R.M.[Run-Min], Ren, W.Q.[Wen-Qi], Huang, C.[Chao], Shao, F.[Feng],
Unsupervised Decomposition and Correction Network for Low-Light Image Enhancement,
ITS(23), No. 10, October 2022, pp. 19440-19455.
IEEE DOI 2210
Lighting, Training, Image enhancement, Visualization, Computational modeling, Training data, Task analysis, Retinex model BibRef

Yue, G.H.[Guang-Hui], Gao, J.[Jie], Cong, R.M.[Run-Min], Zhou, T.W.[Tian-Wei], Li, L.[Leida], Wang, T.F.[Tian-Fu],
Deep Pyramid Network for Low-Light Endoscopic Image Enhancement,
CirSysVideo(34), No. 5, May 2024, pp. 3834-3845.
IEEE DOI 2405
Lighting, Feature extraction, Task analysis, Reflection, Image enhancement, Reflectivity, Random access memory, image quality
See also Low-Light Image and Video Enhancement Using Deep Learning: A Survey. BibRef

Vats, A.[Anuja], Ahmad, B.[Bilal], Floor, P.A.[Pål Anders], Mohammed, A.[Ahmed], Pedersen, M.[Marius], Hovde, Ø.[Øistein],
CAPTIV8: A Comprehensive Large Scale Capsule Endoscopy Dataset for Integrated Diagnosis,
ICIP24(76-82)
IEEE DOI Code:
DOI Link 2411
Wireless communication, Location awareness, Solid modeling, Endoscopes, Learning (artificial intelligence), Time factors, medical imaging BibRef

Lopez-Tiro, F.[Francisco], Villalvazo-Avila, E.[Elias], Betancur-Rengifo, J.P.[Juan Pablo], Reyes-Amezcua, I.[Ivan], Hubert, J.[Jacques], Ochoa-Ruiz, G.[Gilberto], Daul, C.[Christian],
Improving Automatic Endoscopic Stone Recognition Using a Multi-view Fusion Approach Enhanced with Two-Step Transfer Learning,
LXCV-ICCV23(4167-4174)
IEEE DOI 2401
BibRef

Luo, X.B.[Xiong-Biao], Wan, Y.[Ying], He, X.J.[Xiang-Jian], Yang, J.[Jie], Mori, K.[Kensaku],
Diversity-Enhanced Condensation Algorithm and Its Application for Robust and Accurate Endoscope Three-Dimensional Motion Tracking,
CVPR14(1250-1257)
IEEE DOI 1409
Diversity-Enhanced Condensation Algorithm BibRef

Selka, F., Agnus, V., Nicolau, S., Bessaid, A., Soler, L., Marescaux, J., Diana, M.,
Fluorescence-Based Enhanced Reality for Colorectal Endoscopic Surgery,
WBIR14(114-123).
Springer DOI 1407
BibRef

Wu, J.C.H., Lin, G.S.[Guo-Shiang], Hsu, H.T.[Hsiao-Ting], Liao, Y.P.[You-Peng], Liu, K.C.[Kai-Che], Lie, W.N.[Wen-Nung],
Quality enhancement based on retinex and pseudo-HDR synthesis algorithms for endoscopic images,
VCIP13(1-5)
IEEE DOI 1402
endoscopes BibRef

Weibel, T.[Thomas], Daul, C.[Christian], Wolf, D.[Didier], Rosch, R.[Ronald],
Contrast-enhancing seam detection and blending using graph cuts,
ICPR12(2732-2735).
WWW Link. 1302
BibRef

Li, B.P.[Bao-Pu], Meng, M.Q.H.[Max Q.H.],
Wireless Capsule Endoscopy Images Enhancement using Contrast Driven Forward and Backward Anisotropic Diffusion,
ICIP07(II: 437-440).
IEEE DOI 0709
BibRef

Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
Medical Applications -- Gastrointestinal Tract, Gastric Images .