DWT-based Feature Extraction and Radon Transform Based Contrast Enhancement for Improved Iris Recognition
Author:
Publisher
Elsevier BV
Subject
General Engineering
Reference26 articles.
1. Rakesh S, Sandeep G S P, K Manikantan, S Ramachandran, “DFT–based Feature Extraction and Intensity Mapped Contrast enhancement for Enhanced Iris Recognition“, In: Proceedings of Fourth International Conference on signals and Image Processing, p. 481-494, 2012.
2. XiaoZhou Chen, Chang Yin Wu, LiangLin Xiong, Fan Yang, “A Novel Unified-Noise Algorithm for Iris Recognition”, In: Proceedings of International Conference on Future Energy, Environment, and Materials, p. 869-875, 2012.
3. Jinghui Lia, Bairui Tao, Yanchun Wanga, Xibing Lib, “Research and Implementation of Iris Recognition Algorithm”, In: Proceedings of International Workshop on Information and Electronics Engineering, p. 3353-3358, 2012.
4. Zhongliang Luo, “Iris Feature Extraction and Recognition Based on Wavelet-Based Contourlet Transform”, In: Proceedings of International Workshop on Information and Electronics Engineering, p. 3578-3582, 2012.
5. B Thiyaneswaran, R Kandiban, K S Jayakumar, “Elimination of Iris hazards intended for localization using visible features of iris region”, In: Proceedings of International conference on Modelling, Optimization and Computing, p. 246-252, 2012.
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