Monopulse Angle Measurement

The following simulation code implements monopulse angle measurement, featuring difference patterns, sum patterns, and their corresponding ratios under different squint angles. The implementation utilizes mathematical models to simulate antenna radiation patterns and signal processing algorithms characteristic of monopulse radar systems. The code includes functions for generating complex antenna patterns, calculating phase differences, and computing amplitude comparisons essential for precise angle estimation.

These simulation codes are particularly valuable for solving localization and tracking problems in radar measurement systems, significantly enhancing measurement accuracy and stability through advanced signal processing techniques. The implementation employs algorithms for pattern synthesis, signal correlation, and error minimization that can be adapted to various radar configurations. Furthermore, the underlying mathematical framework makes these codes applicable to research in other domains such as image processing (for edge detection and feature extraction) and signal processing (for phase comparison and direction-finding applications). The modular design allows researchers across different fields to customize parameters and extend functionality for specific applications, providing versatile tools for academic and industrial research.