Simulation Program for Stepped-Frequency Continuous Wave (SFCW) Radar Waveform Design

This program provides a detailed demonstration of the simulation process for Stepped-Frequency Continuous Wave (SFCW) radar waveform design. The implementation covers the following key aspects: 1. Fundamental principles and operational mechanisms of Frequency Modulated Continuous Wave (FMCW) radar systems, with MATLAB code examples demonstrating waveform generation using chirp signal functions and frequency modulation techniques. 2. Characteristics and advantages of SFCW waveforms, implemented through discrete frequency stepping algorithms that provide enhanced range resolution compared to traditional FMCW radar. 3. Step-by-step methodology for building the simulation program, including signal generation modules, target modeling components, and processing algorithms for range-Doppler analysis using Fourier transform operations. 4. Performance evaluation framework featuring code implementations for analyzing key parameters such as range resolution, sidelobe suppression, and signal-to-noise ratio through Monte Carlo simulations and statistical analysis tools. 5. Practical case studies and application examples demonstrating real-world scenarios, including multi-target detection simulations and environmental effect modeling with corresponding MATLAB visualization functions. Through detailed code walkthroughs and practical examples, this program enables comprehensive understanding and mastery of SFCW waveform design simulation, providing valuable references and guidance for research and applications in radar signal processing and related fields.