Radar Detection

Author: J. V. DiFranco and W. L. Rubin

Year: 2004

Format: paperback

Product Code: SBRA028Z

ISBN: 9781891121364

Pagination: 654pp

Stock Status: In stock
£62.40 Member price
£96.00 Full price
Description
This book presents a comprehensive tutorial exposition of radar detection using the methods and techniques of mathematical statistics. The material presented is as current and useful to today's engineers as when the book was first published by PrenticeHall in 1968 and then republished by Artech House in 1980.
The book is divided into six parts. Part I is introductory and describes the nature of the radar detection problem. Part II reviews the mathematical tools necessary for a study of detection theory. Part III contains tutorial expositions in a radar context of the classical signaltonoise and a posteriori theories, both of which have played important roles in the evolution of modern radar. The unifying theme of the book is provided by statistical decision theory, introduced in the last chapter of Part III, which provides the framework for the chapters that follow.
The first three chapters of Part IV contain a unified tutorial exposition of single and multiple hit detection theory. The last two chapters are respectively devoted to the use of the radar equation and a discussion of cumulative detection probability. The latter includes a procedure for minimizing the poweraperture product of a search radar. The performance of nearoptimum multiple hit detection strategies are considered in Part V. These include binary and pulse train detection strategies.
The first chapter in Part VI applies sequential detection theory to the radar detection problem. It includes the Marcus and Swerling test strategy and a twostep approximation to sequential detection. The second chapter contains the development of Bayes decision rules and Bayes receivers for optimizing the detection of multiple targets with unknown parameters, such as range, velocity, angle, etc.
Book contents
PART I  INTRODUCTION
1. Introduction to Radar
PART II  MATHEMATICAL DESCRIPTION OF SIGNAL AND NOISE WAVEFORMS
2. Mathematical Representation of Waveforms
3. Probability Theory
4. Random Processes
PART III  OPTIMUM RECEPTION OF SIGNALS TO NOISE
5. Maximization of SignaltoNoise Ratio
6. Optimum Filter for Colored Noise
7. The A Posteriori Theory of Reception
8. Statistical Decision Theory
PART IV  OPTIMUM RADAR DETECTION
9. Detection Based on a Single Observation
10. Detection Based on Multiple Observations: Nonfluctuating Models
11. Detection Based on Multiple Observations: Swerling Fluctuating Models
12. The Radar Equation
13. Cumulative Detection Probability of Stationary and Moving Targets
PART V  SUBOPTIMUM DETECTION TECHNIQUES
14. The Binary Detector
15. Weighted Integrators
PART VI  SPECIAL TOPICS IN DETECTION
16. Sequential Detection
17. MultipleTarget Detection
About the author
Julius V. DiFranco was Research Department Head for Advanced Radar Studies and William L. Rubin was Director of Research for The Sperry Gyroscope Division of Sperry Rand Corporation when this book was written. Both are IEEE Lifetime Fellows.