Radar Systems Engineering Essentials: Understanding Detection, Tracking, Signal Processing, and Multi-Domain Surveillance Architectures - Softcover

Ainsley, Sterling

 
9798183786712: Radar Systems Engineering Essentials: Understanding Detection, Tracking, Signal Processing, and Multi-Domain Surveillance Architectures

Synopsis

Radar Systems Engineering Essentials is a practical guide for engineers, developers, analysts, and students who need a clear, systems-level understanding of how modern radar works, from first principles to real-world integration.

Built around a complete engineering workflow, the book connects mission needs to measurable specifications, then carries those requirements through propagation modeling, waveform selection, receiver design, detection processing, tracking, and multi-sensor fusion. It is written for readers who want more than isolated theory. The focus is on how each design choice affects performance, cost, and operational usefulness.

What the book covers

  • Radar fundamentals, including radar roles, performance metrics, the radar equation, link budgets, and requirements traceability.
  • Propagation and environment effects, with detailed treatment of noise, clutter, atmospheric loss, and range-dependent modeling.
  • Waveform engineering, such as pulse radar, LFM chirps, phase coding, pulse compression, and tradeoffs in bandwidth and sidelobes.
  • Receiver architecture, covering RF front ends, local oscillator behavior, ADC limits, and digital downconversion.
  • Detection processing, including matched filtering, Doppler FFTs, windowing, CFAR methods, and threshold setting.
  • Tracking and estimation, from kinematic models and data association to Kalman-based filters and track management.
  • Angle estimation and localization, with monopulse, beamforming, array processing, and multi-receiver methods.
  • Integration and verification, focusing on synchronization, common data models, calibration, test plans, and acceptance criteria.

Each chapter includes a practical example that turns concepts into engineering decisions. These examples help the reader move from formulas and block diagrams to complete system reasoning, making the material useful for design reviews, performance analysis, simulation work, and implementation planning.

Why it stands out: the book treats radar as an end-to-end system. Detection, tracking, signal processing, and surveillance architecture are presented as connected parts of one operational pipeline, not separate topics. That makes it especially helpful for anyone working on modern surveillance systems, multi-domain sensing, or radar programs that must interface with external sensors and fused track outputs.

Clear, applied, and technically grounded, this title offers a strong foundation for building, evaluating, and improving radar systems in demanding environments.

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