+612 9045 4394
High-Resolution Methods in Underwater Acoustics : Lecture Notes in Control and Information Sciences - Michel Bouvet

High-Resolution Methods in Underwater Acoustics

Lecture Notes in Control and Information Sciences

By: Michel Bouvet (Editor), Georges Bienvenu (Editor)

Paperback ISBN: 9783540537168
Number Of Pages: 253

Share This Book:


or 4 easy payments of $31.26 with Learn more
Ships in 7 to 10 business days

One of the most challenging problems in electrical engineering is the detection and localization of target in underwater acoustics. In particular, bearing estimation is usually obtained by the classical array processing method, beamforming. High-resolution methods have been introduced to overcome the main limitation of beamforming, poor resolution. This volume is composed of tutorials and state-of-the-art research papers on high-resolution methods applied to underwater acoustics. Most of these papers are related to the bearing estimation problem (detailed presentation of methods of their performances, both theoretical and at-sea, their use with an array of unknown geometry, etc) but extensions to the temporal and spectral domains are also included. This monograph on signal processing, underwater acoustics is intended for the use of electrical engineers, advanced students, researchers, industry engineers and scientists, technical navy people.

High resolution passive array processing : An overview of principles.- Extension of high-resolution methods to realistic cases.- Localisation of broadband sources with an array of unknown geometry.- High resolution processing techniques for temporal and spatial signals.- Performance limits of high-resolution systems.- Rapidly adaptive nulling of interference.

ISBN: 9783540537168
ISBN-10: 3540537163
Series: Lecture Notes in Control and Information Sciences
Audience: General
Format: Paperback
Language: English
Number Of Pages: 253
Publisher: Springer-Verlag Berlin and Heidelberg Gmbh & Co. Kg
Country of Publication: DE
Dimensions (cm): 24.41 x 16.99  x 1.4
Weight (kg): 0.43