Waveform Design and Diversity for Advanced Radar Systems

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  • Author:

  • Year: 2012

  • Format: Hardback

  • Product Code: PBRA0220

  • ISBN: 978-1-84919-265-1

  • Pagination: 500

  • Stock Status: In stock

£70.85 Member price

£109.00 Full price


In recent years, various algorithms for radar signal design, that rely heavily upon complicated processing and/or antenna architectures, have been suggested. These techniques owe their genesis to several factors, including revolutionary technological advances (new flexible waveform generators, high speed signal processing hardware, digital array radar technology, etc.) and the stressing performance requirements, often imposed by defence applications in areas such as airborne early warning and homeland security.

Increasingly complex operating scenarios calls for sophisticated algorithms with the ability to adapt and diversify dynamically the waveform to the operating environment in order to achieve a performance gain over classic radar waveforms. Thus, for example, a modern multifunction phased array radar can adapt the waveform, dwell time and update interval according to the nature of the particular target, e.g. the likely type of target, the clutter environment, the signal-to-noise ratio, the threat that it may represent and the degree to which it is manoeuvring.

This is essentially the subject of waveform diversity. This new flexibility demands new ways of characterising waveform properties and optimising waveform design. This ability is very critical in increasing our objective performance as the ability will match the transmission waveform to the transmission environment and the sensing objective.

This is the first book, in which several quintessential concepts inherent to the application of waveform design and diversity for advanced radar detection, tracking, and classification are brought together.

Book readership

This book will have an appeal for university libraries, research institutes, organisations associated with the IEEE and IET, R&D engineers in companies specialising in applications of radar signal processing, graduate students in telecommunication engineering, electrical engineering, automatic control, and computer science. The primary readership will be final year MEng students, MSc and PhD students.

Book contents

1 Classical radar waveform design; 2 The role of information theory in radar; 3 The MIMO ambiguity function; 4 MIMO radar waveform design; 5 Passive radar waveforms; 6 Biologically inspired radar waveform diversity; 7 Waveform Design for Automotive Radar; 8 Multistatic radar pulse compression; 9 Optimal selection of the Tx-Rx Pair in a Multistatic Radar System; 10 Waveform design in non-cooperative radar networks; 11 The role of waveform design in cognitive radar; 12 Waveform design based on phase conjugation and time reversal; 13 Space-time diversity for active antenna systems; 14 Adaptive waveform design for detection; 15 Adaptive waveform design for classification; 16 Adaptive waveform design for tracking; 17 Polarization diversity in adaptive radar waveform design; 18 Waveform Libraries

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