Radar Signals An Introduction To Theory And Application Artech House Radar Library →

: Describes fundamental techniques that allow engineers to "design in" specific characteristics to radar signals to meet operational needs. Advanced Waveform Analysis : Provides detailed treatment of large time-bandwidth pulse-compression

: Traditionally, radar range resolution is limited by pulse width (shorter pulses provide better resolution), while detection range is limited by pulse energy (longer pulses provide more energy). : Describes fundamental techniques that allow engineers to

The workhorse of legacy and modern radar. The book derives the matched filter output of an LFM chirp, showing the classic compressed pulse with a sinc-shaped envelope. It then addresses the problem of Doppler mismatch: a moving target induces a slight frequency shift that causes the compressed peak to shift in range (range-Doppler coupling). For many surveillance radars, this coupling is manageable; for tracking radars, it is a nuisance. The book derives the matched filter output of

In conclusion, "Radar Signals: An Introduction to Theory and Application" from the Artech House Radar Library is a comprehensive book that provides a thorough coverage of radar signal theory and application. The book's significance lies in its balanced coverage of theoretical and practical aspects of radar signals, making it an ideal resource for radar engineers, researchers, and students. The book's in-depth analysis of radar signals and its application in various radar systems makes it a valuable addition to the Artech House Radar Library. In conclusion, "Radar Signals: An Introduction to Theory

No review of this text would be complete without acknowledging its role as a bridge between academic signal processing and real-world radar engineering. The Artech House Radar Library is known for practical, application-focused volumes, and this book honors that tradition. Each chapter concludes with problems that require not just algebraic manipulation but design decisions: selecting a waveform for an automotive radar given speed and range constraints, or analyzing the impact of transmitter phase noise on coherent integration. The references point to classic papers (Woodward, Skolnik, Rihaczek) as well as contemporary research, making the book a launchpad for further study.

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