Array beamforming with linear difference equations /: Jacob Benesty, Israel Cohen, Jingdong Chen.

Benesty, Jacob.; Cohen, Israel; Chen, J.

doi:10.1007/978-3-030-68273-6

Array beamforming with linear difference equations / Jacob Benesty, Israel Cohen, Jingdong Chen.

Benesty, Jacob.; Cohen, Israel (Professor of electrical engineering); Chen, J. (Jingdong)

2021

TK7871.67.A33

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Details

Title

Array beamforming with linear difference equations / Jacob Benesty, Israel Cohen, Jingdong Chen.

Author

Benesty, Jacob.

ISBN

9783030682736 (electronic bk.)
3030682730 (electronic bk.)
3030682722
9783030682729

DOI

https://doi.org/10.1007/978-3-030-68273-6

Publication Details

Cham : Springer, 2021.

Language

English

Description

1 online resource (175 pages)

Item Number

10.1007/978-3-030-68273-6 doi

Call Number

TK7871.67.A33

Dewey Decimal Classification

621.382/4

Summary

This book studies the link between differential beamforming and differential equations which in turn enables the study of fundamental theory and methods of beamforming from a different perspective, leading to new insights into the problem and new methods to solve the problem. The book first presents a brief overview of the problems and methods for beamforming and some performance measures popularly used either to evaluate beamformers or to derive optimal beamformers. Then, first-order, second-order, and general high-order linear difference equations are discussed, based on which the authors show how to formulate the beamforming problem and derive different beamforming methods, including fixed and adaptive ones. Furthermore, the authors show how to apply the theory of difference equations to the general problem of speech enhancement, and deduce a number of noise reduction filters, including the maximum SNR filter, the Wiener filter, the MVDR filter, etc. Also covered in the book are the difference equations and differential beamforming from the spectral graph perspective. Presents basic concepts, fundamental principles, and methods for beamforming from the perspective of linear difference equations; Provides formulation and methods of conventional beamforming, and first-order, second-order, and general high-order linear difference equations for beamforming; Includes the applications of linear difference equations to the problem of noise reduction; Explains beamforming based on difference equations with graphs.

Bibliography, etc. Note

Includes bibliographical references and index.

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Access limited to authorized users.

Source of Description

Online resource; title from PDF title page (SpringerLink, viewed March 29, 2021).

Added Author

Cohen, Israel (Professor of electrical engineering)
Chen, J. (Jingdong)

Series

Springer topics in signal processing ; v. 20.

Available in Other Form

Array Beamforming with Linear Difference Equations.