Shift selection influence in partial cycle spinning denoising of biomedical signals
Author:
Funder
MEC
Publisher
Elsevier BV
Subject
Health Informatics,Signal Processing
Reference19 articles.
1. A frequency diversity process for speckle reduction in real-time ultrasonic images;Galloway;IEEE Trans. Ultrason. Ferroelectr. Freq. Control,1988
2. Application of the dual-tree complex wavelet transform in biomedical signal denoising;Wang;Bio-Med. Mater. Eng.,2014
3. Wavelet and fast bilateral filter based de-speckling method for medical ultrasound images;Zhanga;Biomed. Signal Process. Control,2015
4. An image despeckling approach using quantum-inspired statistics in dual-tree complex wavelet domain;Fu;Biomed. Signal Process. Control,2015
5. A 1D wavelet filtering for ultrasound images despeckling;Dahdouh;Proc. SPIE Int. Soc. Opt. Eng.,2010
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1. De-noising of EEG signals with shift-based cycle spinning on wave atoms;Soft Computing;2022-03-08
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3. Reduced Cycle Spinning Method for the Undecimated Wavelet Transform;Sensors;2019-06-20
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