Sparse Arrays for Radar, Sonar, and Communications

Specialized resource providing detailed coverage of recent advances in theory and applications of sparse arrays

Sparse Arrays for Radar, Sonar, and Communications discusses various design approaches of sparse arrays, including those seeking to increase the corresponding one-dimensional and two-dimensional virtual array apertures, as well as others that configure the arrays based on solutions of constrained minimization problems. The latter includes statistical bounds and signal-to-interference and noise ratio; in this respect, the book utilizes the recent strides made in convex optimizations and machine learning for sparse array configurability in both fixed and dynamic environments. Similar ideas are presented for sparse array-waveform design.

The book also discusses the role of sparse arrays in improving target detection and resolution in radar, improving channel capacity in massive MIMO, and improving underwater target localization in sonar. It covers different sparse array topologies, and provides various approaches that deliver the optimum and semi-optimum sparse array transceivers. .

Edited by a world-leading expert in Radar and Signal Processing and contributed to by world-class researchers in their respective fields, Sparse Arrays for Radar, Sonar, and Communications covers topics including:

• Utilizing sparse arrays in emerging technologies and showing their offerings in various sensing and communications applications
• Applying sparse arrays to different environments and obtain superior performances over conventional uniform arrays
• Solving the localization, beamforming, and direction-finding problems using non-uniform array structures for narrowband and wideband signals
• Designing sparse array structures for both stationary and moving platforms that produce physical and synthesized array apertures.
• Using deep neural networks that learn the underlying complex nonlinear model and output the sparse array configuration using representations of the input data spatio-temporal observations
• Solving for optimum sparse array configurations and beamforming coefficients in sensing using iterative convex optimization methods

Providing complete coverage of the recent considerable progress in sparse array design and configurations, Sparse Arrays for Radar, Sonar, and Communications is an essential resource on the subject for graduate students and engineers pursuing research and applications in the broad areas of active/passive sensing and communications.

Dr. Moeness G. Amin, Villanova University, USA. Since 1985, Dr. Amin has been with the Faculty of the Department of Electrical and Computer Engineering, Villanova University, PA, USA, where he became the Director of the Center for Advanced Communications, College of Engineering, in 2002. He has more than 900 journal and conference publications in signal processing theory and applications, covering the areas of wireless communications, radar, sonar, satellite navigations, ultrasound, and RFID.