Simulation of Chromatic Dispersion in Optical Fiber Transmission Systems

We conducted extensive simulation studies on chromatic dispersion in optical fiber transmission systems. Our research incorporated various scenarios and factors including fiber length, core diameter, refractive index, and material dispersion. The simulation implementation utilized numerical modeling algorithms that calculate dispersion effects using frequency-domain analysis and split-step Fourier methods. Our results demonstrate that our model achieves exceptional accuracy in dispersion prediction while providing valuable recommendations for system optimization to minimize dispersion effects. Simulations were performed using customized MATLAB scripts that implement dispersion compensation algorithms and analyze signal degradation through optical transfer functions. These findings are highly valuable for designing more efficient and reliable optical fiber transmission systems, as they provide engineers with critical insights into system optimization strategies. The simulation framework incorporates key functions for dispersion parameter calculation and performance evaluation metrics, enabling comprehensive analysis of transmission quality under various operating conditions.