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The Wiener-Hopf Technique

The Wiener-Hopf Technique
The Wiener-Hopf Technique
This book aims to give a thorough grounding in the mathematical tools necessary for research in acoustics. Twelve authors, all highly-respected researchers in the field of acoustics, provide a comprehensive introduction to mathematical analysis and its applications in acoustics, through material developed for a summer school in mathematics for acoustics researchers funded by the UK Engineering and Physical Sciences Research Council. Mathematical Methods, Wave Motion, Aeroacoustics and Signal Processing are covered in fourteen chapters by authors including Keith Attenborough (Hull), John Chapman (Keele), Trevor Cox (Salford), Chris Linton and Maureen McIver (Loughborough), and Nigel Peake (Cambridge). There are worked examples, exercises and suggestions for further reading where appropriate. This book is suitable for advanced undergraduate and graduate courses in acoustics and will form an important reference source for researchers in the field.

Contents:
Mathematical Methods: Vector Calculus (J W Elliott) Functions of a Complex Variable (J W Elliott) Integral Transforms (J W Elliott) Asymptotic Expansion of Integrals (R H Self) Wave Motion: The Wiener–Hopf Technique (M C M Wright) Waveguides (M McIver & C M Linton) Wavefield Decomposition (M C M Wright) Acoustics of Rigid–Porous Materials (K Attenborough & O Umnova) Aeroacoustics: Generalised Functions in Aeroacoustics (N Peake) Monopoles, Dipoles, and Quadrupoles (C J Chapman) Corrugated Pipe Flow (J W Elliott) Signal Processing: Digital Filters (P J Duncan) Measurement of Linear Time-Invariant Systems (T J Cox & P Darlington) Numerical Optimisation (T J Cox & P Darlington)
Readership: Graduate students, advanced undergraduate students, researchers in mechanical engineering and mathematical physics.
1860944965
109-124
Imperial College Press
Wright, M.C.M.
b7209187-993d-4f18-8003-9f41aaf88abf
Wright, M.C.M.
Wright, M.C.M.
b7209187-993d-4f18-8003-9f41aaf88abf
Wright, M.C.M.

Wright, M.C.M. (2005) The Wiener-Hopf Technique. In, Wright, M.C.M. (ed.) Lecture Notes on the Mathematics of Acoustics. London, UK. Imperial College Press, pp. 109-124.

Record type: Book Section

Abstract

This book aims to give a thorough grounding in the mathematical tools necessary for research in acoustics. Twelve authors, all highly-respected researchers in the field of acoustics, provide a comprehensive introduction to mathematical analysis and its applications in acoustics, through material developed for a summer school in mathematics for acoustics researchers funded by the UK Engineering and Physical Sciences Research Council. Mathematical Methods, Wave Motion, Aeroacoustics and Signal Processing are covered in fourteen chapters by authors including Keith Attenborough (Hull), John Chapman (Keele), Trevor Cox (Salford), Chris Linton and Maureen McIver (Loughborough), and Nigel Peake (Cambridge). There are worked examples, exercises and suggestions for further reading where appropriate. This book is suitable for advanced undergraduate and graduate courses in acoustics and will form an important reference source for researchers in the field.

Contents:
Mathematical Methods: Vector Calculus (J W Elliott) Functions of a Complex Variable (J W Elliott) Integral Transforms (J W Elliott) Asymptotic Expansion of Integrals (R H Self) Wave Motion: The Wiener–Hopf Technique (M C M Wright) Waveguides (M McIver & C M Linton) Wavefield Decomposition (M C M Wright) Acoustics of Rigid–Porous Materials (K Attenborough & O Umnova) Aeroacoustics: Generalised Functions in Aeroacoustics (N Peake) Monopoles, Dipoles, and Quadrupoles (C J Chapman) Corrugated Pipe Flow (J W Elliott) Signal Processing: Digital Filters (P J Duncan) Measurement of Linear Time-Invariant Systems (T J Cox & P Darlington) Numerical Optimisation (T J Cox & P Darlington)
Readership: Graduate students, advanced undergraduate students, researchers in mechanical engineering and mathematical physics.

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Published date: 2005
Additional Information: Chapter 5
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Identifiers

Local EPrints ID: 28277
URI: http://eprints.soton.ac.uk/id/eprint/28277
ISBN: 1860944965
PURE UUID: 078abf29-206e-409c-8473-8bf66258bdc8
ORCID for M.C.M. Wright: ORCID iD orcid.org/0000-0001-9393-4918

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Date deposited: 04 May 2006
Last modified: 11 Jan 2023 02:34

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Contributors

Author: M.C.M. Wright ORCID iD
Editor: M.C.M. Wright

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