Time frequency and wavelets in biomedical signal processing /
Time frequency and wavelets in biomedical signal processing /
edited by Metin Akay.
- xxviii, 739 pages : illustrations ; 26 cm.
- IEEE Press series in biomedical engineering .
- IEEE Press series in biomedical engineering. .
"Endorsed by the IEEE Engineering in Medicine and Biology Society.".
Includes bibliographical references and index.
Time-frequency analysis methods with biomedical applications -- Recent advances in time-frequency representations: some theoretical foundation / Biological applications and interpretations of time-frequency signal analysis / Application of advanced time-frequency analysis techniques to doppler ultrasound / Analysis of EGG late potentials using time-frequency methods / Time-frequency distributions applied to uterine EMG: characterization and assessment / Time-grequency analyses of the electrogastrogram / recent advances in time-frequency and time-scale methods / Wavelets, Wavelet packets, and matching pursuits with biomedical applications -- Fast algorithms for wavelet transform computation / Analysis of cellular vibrations in the living cochlea using the continuous wavelet transform and the short-time fourier transform / Iterative processing method using gabor wavelets and the wavelet transform for the analysis of phonocardiogram signals / Wavelet feature extraction from neurophysiological signals / Experiments with adapted wavelet de-noising for medical signals and images / Speech enhancement for hearing aids / From continuous wavelet transform to wavelet packets: application to the estimation of pulmonary microvascular pressure / In pursuit of time-frequency representation of brain signals / EEG spike directors based on different decompositions: a comparative study / Wavelets and medical imaging -- Discrete dyadic wavelet transform for multidimensional feature analysis / Hexagonal QMF banks and wavelets / Inversion of the radon transform under wavelet constraints / Wavelets applied to mammograms / Hybrid wavelet transform for image enhancement for computer-assisted diagnosis and telemedicine applications / Medical image enhancement using wavelet transform and arithmedic coding / Adapted wavelet encoding in functional magnetic resonance imaging / Tutorial overview of a stabilization algorithm for limited-angle tomography / Wavelet compression of medical images / Wavelets, neural networks, and fractals -- Single side scaling wavelet frame and neural network / Analysis of evoked potentials using wavelet networks / Self-organizing wavelet-based neural networks / On wavelets and fractal processes / Fractal analysis of heart rate variability / William J. Williams -- William J. Williams -- S. Lawrence Marple, Tom Brotherton, and Doug Jones -- Harmut Dickhaus and Hartmut Heinrich -- Jacques DuchĂȘne and Dominique Devedeux -- Zhiyue Lin and Jiande Z. Chen -- Claudia Mello and Metin Akay -- Olivier Rioul and Pierre Duhamel -- M.C. Teich, C. Heneghan, and S.M. Khanna -- Mustafa Matalgah, Jerome Knopp, and Salah Mawagdeh -- Mingui Sun and Robert J. Sclabassi -- Ronald R. Coifman and Mladen Victor Wickerhauser -- Janet C. Rutledge -- Mohsine Karrakchou and Murat Kunt -- P.J. Durka and K.J. Blinowska -- L. Senhadji, J.J. Bellanger, and G. Carrault -- Iztok Koren and Andrew Laine -- Sergio Schuler and Andrew Laine -- Berkman Sahiner and Andrew E. Yagle -- Walter B. Richardson -- Laurence P. Clarke ... [et al.] -- Pongskorn Saipetch ... [et al.] -- Dennis M. Healy, Douglas W. Warner, and John B. Weaver -- Tom Olson -- Armando Manduca -- Qinghua Zhang -- Hartmut Heinrich and Hartmut Dickhaus -- Kunikazu Kobayashi -- Patrick Flandrin -- Russell Fischer and Metin Akay.
""Brimming with top articles from experts in signal processing and biomedical engineering, Time-Frequency and Wavelets in Biomedical Signal Processing introduces time-frequency, time-scale, wavelet transform methods, and their applications in biomedical signal processing. This edited volume incorporates the most recent developments in the field to illustrate thoroughly how the use of these time-frequency methods is currently improving the quality of medical diagnosis, including technologies for assessing pulmonary and respiratory conditions, EEGs, hearing aids, MRIs, mammograms, X rays, evoked potential signals analysis, neural networks applications, among other topics. ; ; Time-Frequency and Wavelets in Biomedical Signal Processing will be of particular interest to signal processing engineers, biomedical engineers, and medical researchers. ; ; For more information on the IEEE Press Series in Biomedical Engineering edited by Metin Akay, go to http://www.caip.rutgers.edu/7Eakay/book/""--Publisher description.
0780311477 9780780311473
97019866
Signal processing
Wavelets (Mathematics)
Biomedical engineering.
Signal Processing, Computer-Assisted
R857.S47 / T54 1998
610.28
"Endorsed by the IEEE Engineering in Medicine and Biology Society.".
Includes bibliographical references and index.
Time-frequency analysis methods with biomedical applications -- Recent advances in time-frequency representations: some theoretical foundation / Biological applications and interpretations of time-frequency signal analysis / Application of advanced time-frequency analysis techniques to doppler ultrasound / Analysis of EGG late potentials using time-frequency methods / Time-frequency distributions applied to uterine EMG: characterization and assessment / Time-grequency analyses of the electrogastrogram / recent advances in time-frequency and time-scale methods / Wavelets, Wavelet packets, and matching pursuits with biomedical applications -- Fast algorithms for wavelet transform computation / Analysis of cellular vibrations in the living cochlea using the continuous wavelet transform and the short-time fourier transform / Iterative processing method using gabor wavelets and the wavelet transform for the analysis of phonocardiogram signals / Wavelet feature extraction from neurophysiological signals / Experiments with adapted wavelet de-noising for medical signals and images / Speech enhancement for hearing aids / From continuous wavelet transform to wavelet packets: application to the estimation of pulmonary microvascular pressure / In pursuit of time-frequency representation of brain signals / EEG spike directors based on different decompositions: a comparative study / Wavelets and medical imaging -- Discrete dyadic wavelet transform for multidimensional feature analysis / Hexagonal QMF banks and wavelets / Inversion of the radon transform under wavelet constraints / Wavelets applied to mammograms / Hybrid wavelet transform for image enhancement for computer-assisted diagnosis and telemedicine applications / Medical image enhancement using wavelet transform and arithmedic coding / Adapted wavelet encoding in functional magnetic resonance imaging / Tutorial overview of a stabilization algorithm for limited-angle tomography / Wavelet compression of medical images / Wavelets, neural networks, and fractals -- Single side scaling wavelet frame and neural network / Analysis of evoked potentials using wavelet networks / Self-organizing wavelet-based neural networks / On wavelets and fractal processes / Fractal analysis of heart rate variability / William J. Williams -- William J. Williams -- S. Lawrence Marple, Tom Brotherton, and Doug Jones -- Harmut Dickhaus and Hartmut Heinrich -- Jacques DuchĂȘne and Dominique Devedeux -- Zhiyue Lin and Jiande Z. Chen -- Claudia Mello and Metin Akay -- Olivier Rioul and Pierre Duhamel -- M.C. Teich, C. Heneghan, and S.M. Khanna -- Mustafa Matalgah, Jerome Knopp, and Salah Mawagdeh -- Mingui Sun and Robert J. Sclabassi -- Ronald R. Coifman and Mladen Victor Wickerhauser -- Janet C. Rutledge -- Mohsine Karrakchou and Murat Kunt -- P.J. Durka and K.J. Blinowska -- L. Senhadji, J.J. Bellanger, and G. Carrault -- Iztok Koren and Andrew Laine -- Sergio Schuler and Andrew Laine -- Berkman Sahiner and Andrew E. Yagle -- Walter B. Richardson -- Laurence P. Clarke ... [et al.] -- Pongskorn Saipetch ... [et al.] -- Dennis M. Healy, Douglas W. Warner, and John B. Weaver -- Tom Olson -- Armando Manduca -- Qinghua Zhang -- Hartmut Heinrich and Hartmut Dickhaus -- Kunikazu Kobayashi -- Patrick Flandrin -- Russell Fischer and Metin Akay.
""Brimming with top articles from experts in signal processing and biomedical engineering, Time-Frequency and Wavelets in Biomedical Signal Processing introduces time-frequency, time-scale, wavelet transform methods, and their applications in biomedical signal processing. This edited volume incorporates the most recent developments in the field to illustrate thoroughly how the use of these time-frequency methods is currently improving the quality of medical diagnosis, including technologies for assessing pulmonary and respiratory conditions, EEGs, hearing aids, MRIs, mammograms, X rays, evoked potential signals analysis, neural networks applications, among other topics. ; ; Time-Frequency and Wavelets in Biomedical Signal Processing will be of particular interest to signal processing engineers, biomedical engineers, and medical researchers. ; ; For more information on the IEEE Press Series in Biomedical Engineering edited by Metin Akay, go to http://www.caip.rutgers.edu/7Eakay/book/""--Publisher description.
0780311477 9780780311473
97019866
Signal processing
Wavelets (Mathematics)
Biomedical engineering.
Signal Processing, Computer-Assisted
R857.S47 / T54 1998
610.28