Time Frequency And Wavelets In Biomedical Signal Processing

Akay

  • 出版商: Wiley
  • 出版日期: 1997-11-07
  • 售價: $9,800
  • 貴賓價: 9.5$9,310
  • 語言: 英文
  • 頁數: 768
  • 裝訂: Hardcover
  • ISBN: 0780311477
  • ISBN-13: 9780780311473
  • 海外代購書籍(需單獨結帳)

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Description:

Biomedical Engineering Time Frequency and Wavelets in Biomedical Signal Processing IEEE Press Series in Biomedical Engineering Metin Akay, Series Editor Endorsed by the IEEE Engineering in Medicine and Biology Society 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. Topics covered include:

  • Time-frequency analysis methods and biomedical applications
  • Wavelets, wavelet packets, and matching pursuits and biomedical applications
  • Wavelets and medical imaging
  • Wavelets, neural networks, and fractals

Table of Contents:

List of Contributors.

Preface.

TIME-FREQUENCY ANALYSIS METHODS WITH BIOMEDICAL APPLICATIONS.

Recent Advances in Time-Frequency Representations: Some Theoretical Foundation (W. Williams).

Biological Applications and Interpretations of Time-Frequency Signal Analysis (W. Williams).

The Application of Advanced Time-Frequency Analysis Techniques to Doppler Ultrasound (S. Marple, et al.).

Analysis of ECG Late Potentials Using Time-Frequency Methods (H. Dickhaus & H. Heinrich).

Time-Frequency Distributions Applied to Uterine EMG: Characterization and Assessment (J. Duchene & D. Devedeux).

Time-Frequency Analyses of the Electrogastrogram (Z. Lin and J. Chen).

Recent Advances in Time-Frequency and Time-Scale Methods (C. Mello & M. Akay).

WAVELETS, WAVELET PACKETS, AND MATCHING PURSUITS WITH BIOMEDICAL APPLICATIONS.

Fast Algorithms for Wavelet Transform Computation (O. Rioul & P. Duhamel).

Analysis of Cellular Vibrations in the Living Cochlea Using the Continuous Wavelet Transform and the Short-Time Fourier Transform (M. Teich, et al.).

Alterative Processing Method Using Gabor Wavelets and the Wavelet Transform for the Analysis of Phonocardiogram Signals (M. Matalgah, et al.).

Wavelet Feature Extraction from Neurophysiological Signals (M. Sun & R. Sclabassi).

Experiments with Adapted Wavelet De-Noising for Medical Signals and Images (R. Coifman & M. Wickerhauser).

Speech Enhancement for Hearing Aids (J. Rutledge).

From Continuous Wavelet Transform to Wavelet Packets: Application to the Estimation of Pulmonary Microvascular Pressure (M. Karrakchou & M. Kunt).

In Pursuit of Time-Frequency Representation of Brain Signals (P. Durka & K. Blinowska).

EEG Spike Directors Based on Different Decompositions: A Comparative Study (L. Senhadji, et al.).

WAVELETS AND MEDICAL IMAGING.

A Discrete Dyadic Wavelet Transform for Multidimensional Feature Analysis (I. Koren & A. Laine).

Hexagonal QMF Banks and Wavelets (S. Schuler & A. Laine).

Inversion of the Radon Transform under Wavelet Constraints (B. Sahiner & A. Yagle).

Wavelets Applied to Mammograms (W. Richardson).

Hybrid Wavelet Transform for Image Enhancement for Computer-Assisted Diagnosis and Telemedicine Applications (L. Clarke, et al.).

Medical Image Enhancement Using Wavelet Transform and Arithmetic Coding (P. Saipetch, et al.).

Adapted Wavelet Encoding in Functional Magnetic Resonance Imaging (D. Healy, et al.).

A Tutorial Overview of a Stabilization Algorithm for Limited-Angle Tomography (T. Olson).

Wavelet Compression of Medical Images (A. Manduca).

WAVELETS, NEURAL NETWORKS, AND FRACTALS.

Single Side Scaling Wavelet Frame and Neural Network (Q. Zhang).

Analysis of Evoked Potentials Using Wavelet Networks (H. Heinrich & H. Dickhaus).

Self-Organizing Wavelet-Based Neural Networks (K. Kobayashi).

On Wavelets and Fractal Processes (P. Flandrin).

Fractal Analysis of Heart Rate Variability (R. Fischer & M. Akay).

Index.

Editor's Biography.

商品描述(中文翻譯)

描述:
《生物醫學工程中的時間頻率與小波在生物醫學信號處理中的應用》是IEEE生物醫學工程系列的一部分,由Metin Akay擔任系列編輯,並獲得IEEE醫學與生物工程學會的支持。本書匯集了來自信號處理和生物醫學工程領域專家的頂尖文章,介紹了時間頻率、時間尺度、小波變換方法及其在生物醫學信號處理中的應用。本編輯書籍整合了該領域最新的發展,徹底說明了這些時間頻率方法如何改善醫療診斷的質量,包括評估肺部和呼吸狀況的技術、腦電圖(EEG)、助聽器、磁共振成像(MRI)、乳房X光檢查、X光、誘發電位信號分析、神經網絡應用等主題。《生物醫學工程中的時間頻率與小波在生物醫學信號處理中的應用》將特別吸引信號處理工程師、生物醫學工程師和醫學研究人員。涵蓋的主題包括:

- 時間頻率分析方法及其生物醫學應用
- 小波、小波包和匹配追蹤及其生物醫學應用
- 小波與醫學影像
- 小波、神經網絡與分形

目錄:
貢獻者名單。
前言。
時間頻率分析方法與生物醫學應用。
時間頻率表示的最新進展:一些理論基礎(W. Williams)。
時間頻率信號分析的生物應用與解釋(W. Williams)。
先進時間頻率分析技術在多普勒超聲中的應用(S. Marple 等)。
使用時間頻率方法分析心電圖晚期電位(H. Dickhaus & H. Heinrich)。
應用於子宮肌電圖的時間頻率分佈:特徵化與評估(J. Duchene & D. Devedeux)。
電胃圖的時間頻率分析(Z. Lin 和 J. Chen)。
時間頻率與時間尺度方法的最新進展(C. Mello & M. Akay)。
小波、小波包與匹配追蹤的生物醫學應用。
小波變換計算的快速算法(O. Rioul & P. Duhamel)。
使用連續小波變換和短時傅立葉變換分析活耳蝸中的細胞振動(M. Teich 等)。
使用Gabor小波和小波變換分析心音圖信號的替代處理方法(M. Matalgah 等)。
從神經生理信號中提取小波特徵(M. Sun & R. Sclabassi)。