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Wavelets in Medicine and Biology [Kõva köide]

Edited by (BEIP/NIH, Bethesda, Maryland, USA), Edited by (BEIP/NIH, Bethesda, Maryland, USA)
  • Formaat: Hardback, 632 pages, kõrgus x laius: 234x156 mm, kaal: 1280 g, 7 Tables, black and white; 85 Halftones, black and white
  • Ilmumisaeg: 24-Apr-1996
  • Kirjastus: CRC Press Inc
  • ISBN-10: 084939483X
  • ISBN-13: 9780849394836
Teised raamatud teemal:
Wavelets in Medicine and BiologySuurem pilt
  • Formaat: Hardback, 632 pages, kõrgus x laius: 234x156 mm, kaal: 1280 g, 7 Tables, black and white; 85 Halftones, black and white
  • Ilmumisaeg: 24-Apr-1996
  • Kirjastus: CRC Press Inc
  • ISBN-10: 084939483X
  • ISBN-13: 9780849394836
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780849394836.html
Märksõnad:
Twenty-three expositions of wavelet transforms written by biomedical engineering researchers whose cumulative knowledge produces a complete guide to wavelet applications in medicine and biology, including guidelines. An introduction provides non-experts with the basic theory and foundation of methods, and the following contributions discuss implementation, medical imaging and tomography, biomedical signal processing, and mathematical models. Includes calculations, photographs, and illustrations. Annotation c. by Book News, Inc., Portland, Or.

Considerable attention from the international scientific community is currently focused on the wide ranging applications of wavelets. For the first time, the field's leading experts have come together to produce a complete guide to wavelet transform applications in medicine and biology. Wavelets in Medicine and Biology provides accessible, detailed, and comprehensive guidelines for all those interested in learning about wavelets and their applications to biomedical problems.

Arvustused

"The book is well-produced, and on the whole well-written. It should be useful to research students entering the field, and could be inspiring to mathematics undergraduates interested in real, and indisputably useful, applications of their subject." -David Griffel,The Mathematical Gazette

Preface, A. Aldroubi and M. Unser
Wavelet Transform: Theory and Implementation
The Wavelet Transform: A Surfing Guide, A. Aldroubi
A Practical Guide to the Implementation of the Wavelet Transform, M. Unser
Wavelets in Medical Imaging and Tomography
An Application of Wavelet Shrinkage to Tomography, E. Kolaczyk
Wavelet Denoising of Functional MRI Data, M. Hilton, T. Ogden, D. Hattery, G. Eden, and B. Jawerth
Statistical Analysis of Image Differences by Wavelet Decomposition, U.E. Ruttiman, M. Unser, P. ThTvenaz, C. Lee, D. Rio, and D. Hommer
Feature Extraction in Digital Mammography, R.A. DeVore, B. Lucier, and Z. Yang
Contrast Enhancement by Multiscale and Nonlinear Operators, J. Fan and A. Laine
Using Wavelets to Suppress Noise in Biomedical Images, M. Malfait
Wavelet Transform and Tomography: Continuous and Discrete Approaches, F. Peyrin and M. Zaim
Wavelets and Local Tomography, C. Berenstein and D. Walnut
Optimal Time-Frequency Projections for Localized Tomography, T. Olson
Adapted Wavelet Techniques for Encoding Magnetic Resonance Images, D. Healy and J. Weaver
Wavelets and Biomedical Signal Processing
Sleep Images Using the Wavelet Transform to Process Polysomnographic Signals, R. Sartene, L. Poupard, J.L. Bernard, and J.C. Wallet
Estimating the Fractal Exponent of Point Processes in Biological Systems Using Wavelet- and Fourier-Transform Methods, M.C. Teich, C. Heneghan, S.B. Lowen, and R.G. Turcott
Point Processes, Long Range Dependence, and Wavelets, P. Abry and P. Flandrin
Continuous Wavelet Transform: ECG Recognition Based on Phase and Modulus Representations and Hidden Markov Models, L. Senhadji, L. Thoraval, and G. Carrault
Interference Canceling in Biomedical Systems: The Mutual Wavelet Packet Approach, M. Karrakchou and M. Kunt
Frame Signal Processing Applied to Bioelectric Data, J.J. Benedetto
Diagnosis of Coronary Artery Disease Using Wavelet-Based Neural Networks, M. Akay
Wavelets and Mathematical Models in Biology
A Nonlinear Squeezing of the Continuous Wavelet Transform Based on Auditory Nerve Models, I. Daubechies and S. Maes
The Application of Wavelet Transforms to Blood Flow Velocimetry, L. Weiss
Wavelet Models of Event-Related Potential, J. Raz and B. Turetsky
Macromolecular Structure Computation Based on Energy Function Approximation by Wavelets, E. Schmitt
Index
Aldroubi\, Akram; Unser\, Michael