MSK Simulink Simulation Model for Academic Research

During our graduation projects, thesis research, and academic studies, we employed an MSK Simulink simulation model that proved fundamental to our research work. This simulation environment implements core MSK modulation/demodulation algorithms through interconnected functional blocks, including waveform generators, phase shift modules, and correlation detectors. The program enabled us to conduct comprehensive system-level analysis of communication parameters such as bit error rates, spectral efficiency, and phase continuity. Through Simulink's visual programming interface, we constructed hierarchical models containing MATLAB Function blocks for custom algorithm implementation and Spectrum Analyzer blocks for real-time signal monitoring. This platform provided an experimental framework for testing various hypotheses and validating research outcomes through parameter sweeps and Monte Carlo simulations. The model's architecture incorporates key MSK features like constant envelope properties and orthogonal signaling through precise phase shifting mechanisms. Ultimately, the MSK Simulink simulation program served as an indispensable tool in our research workflow, facilitating both theoretical understanding and practical verification of digital communication concepts through interactive simulation and data visualization capabilities.