Linear Frequency Modulated (LFM) Pulse Compression Radar Simulation System

This software constitutes a component of a Linear Frequency Modulated (LFM) pulse compression radar simulation system, characterized by both typical implementation and practical utility, aiming to assist professionals working in radar simulation.

The system design addresses key requirements in radar simulation through MATLAB implementation of fundamental radar processing chains. Core algorithms include linear chirp generation with programmable bandwidth and pulse width, matched filter implementation using FFT-based correlation techniques, and signal processing workflows for target echo simulation. Users can configure various radar scenarios with adjustable parameters including target RCS models, velocity profiles, and environmental conditions through structured configuration files.

The simulation architecture employs standardized radar signal processing methodologies, implementing coherent processing intervals (CPI) and pulse-Doppler processing with FFT-based Doppler analysis. The codebase features modular components for waveform generation, target modeling, and signal processing chains that mirror real-world radar systems' operational principles. This enables users to study radar system characteristics including resolution limits, ambiguity functions, and signal-to-noise ratio performance under different operational conditions.

Engineered for both educational and professional applications, the system provides comprehensive simulation capabilities through MATLAB script-based architecture with GUI interfaces for parameter configuration. The implementation supports academic research, engineering design validation, and training scenarios by demonstrating practical radar system behavior through configurable simulation parameters and visualization tools for results analysis.

In summary, this software represents a functionally complete LFM pulse compression radar simulation component with industry-standard implementation. It serves as a versatile platform for radar simulation professionals to enhance their understanding of radar system operations through hands-on experimentation with digitally implemented radar processing algorithms and performance analysis tools.