Download Free Adaptive Wavelet Analysis Book in PDF and EPUB Free Download. You can read online Adaptive Wavelet Analysis and write the review.

This detail-oriented text is intended for engineers and applied mathematicians who must write computer programs to perform wavelet and related analysis on real data. It contains an overview of mathematical prerequisites and proceeds to describe hands-on programming techniques to implement special programs for signal analysis and other applications.
Dieses Buch richtet sich an angewandte Mathematiker, Ingenieure und Naturwissenschaftler, die Computerprogramme zur Wavelet-Analysis (und hierzu verwandter Methoden) in der Signalverarbeitung reeller Daten entwickeln und einsetzen. Dem weniger an Anwendungen interessierten Leser dient das Buch als Einführung in einige wesentliche Aspekte der Wavelet-Theorie; der akademische Lehrer kann es als Textbuch mit einer Darstellung aktuellster mathematischer Techniken in der transienten Signalanalysis einsetzen.Nach einem einführenden Kapitel, das die erforderlichen mathematischen Hilfsmittel darstellt, behandelt der Autor die Eigenschaften von Wellenformen, die in der adaptiven Wavelet-Analysis Anwendung finden: Diskrete schnelle Fourier-Transformationen, orthogonale Funktionen mit überlappendem Träger. Weitere Kapitel diskutieren die Methode der "besten Basis", die Zeit-Frequenz-Analyse und Kombinationen dieser Algorithmen, die für die Analyse und Verarbeitung von Signalen, Rauschunterdrückung und Datenkompression nützlich sind.Jedes Kapitel geht auf die technischen Aspekte der Implementierung der behandelten Algorithmen ein, indem Beispiele von Pseudocodes eingestreut sind.
The last 15 years have seen an explosion of interest in wavelets with applications in fields such as image compression, turbulence, human vision, radar and earthquake prediction. Wavelets represent an area that combines signal in image processing, mathematics, physics and electrical engineering. As such, this title is intended for the wide audience that is interested in mastering the basic techniques in this subject area, such as decomposition and compression.
This volume reflects the latest developments in the area of wavelet analysis and its applications. Since the cornerstone lecture of Yves Meyer presented at the ICM 1990 in Kyoto, to some extent, wavelet analysis has often been said to be mainly an applied area. However, a significant percentage of contributions now are connected to theoretical mathematical areas, and the concept of wavelets continuously stretches across various disciplines of mathematics. Key topics: Approximation and Fourier Analysis Construction of Wavelets and Frame Theory Fractal and Multifractal Theory Wavelets in Numerical Analysis Time-Frequency Analysis Adaptive Representation of Nonlinear and Non-stationary Signals Applications, particularly in image processing Through the broad spectrum, ranging from pure and applied mathematics to real applications, the book will be most useful for researchers, engineers and developers alike.
The last fifteen years have produced major advances in the mathematical theory of wavelet transforms and their applications to science and engineering. In an effort to inform researchers in mathematics, physics, statistics, computer science, and engineering and to stimulate furtherresearch, an NSF-CBMS Research Conference on Wavelet Analysis was organized at the University of Central Florida in May 1998. Many distinguished mathematicians and scientists from allover the world participated in the conference and provided a digest of recent developments, open questions, and unsolved problems in this rapidly growing and important field. As a follow-up project, this monograph was developed from manuscripts sub mitted by renowned mathematicians and scientists who have made important contributions to the subject of wavelets, wavelet transforms, and time-frequency signal analysis. This publication brings together current developments in the theory and applications of wavelet transforms and in the field of time-frequency signal analysis that are likely to determine fruitful directions for future advanced study and research.
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.
This collection of independent case studies demonstrates how wavelet techniques have been used to solve open problems and develop insight into the nature of the systems under study. Each case begins with a description of the problem and points to the specific properties of wavelets and techniques used for determining a solution. The cases range from a very simple wavelet-based technique for reducing noise in laboratory data to complex work on two-dimensional geographical data display conducted at the Earthquake Research Institute in Japan. One case study shows how wavelet analysis is used in the development of a Japanese text-to-speech system for personal computers and another presents new wavelet techniques developed for and applied to the study of atmospheric wind, turbulent fluid, and seismic acceleration data. Although calculus and some junior and senior mathematics courses for scientists and engineers will suffice, a solid background in undergraduate mathematics, particularly analysis and numerical analysis, and some familiarity with the basics of wavelets are helpful for reading this book.