Radar Range Calculation in Jamming Environments

This program calculates radar detection ranges in jamming environments. The implementation handles both Stand-off Jamming (SOJ) and Self-Screening Jamming (SSJ) scenarios for steady targets and Swerling fluctuating target models. The algorithm incorporates key radar features including frequency agility, coherent integration processing, and attenuation calculations based on standard atmospheric models and rain attenuation models. The program employs advanced signal processing algorithms and statistical models to provide accurate range calculations under various jamming conditions, ensuring radar system reliability and performance accuracy. The implementation considers multiple environmental factors through integrated propagation models that account for atmospheric absorption and precipitation effects. Key functions include jammer-to-signal ratio (JSR) calculation, radar equation modification for jamming scenarios, and Monte Carlo simulations for statistical target models. Through its comprehensive approach to electronic warfare modeling, the program delivers precise radar range predictions even in complex jamming environments. The code structure allows for parameter customization including radar characteristics, jammer parameters, target properties, and environmental conditions.