High Voltage Direct Current in Wind Energy System Modeling
High Voltage Direct Current (HVDC) Implementation in Wind Power Systems using Simulink
Physics of Solar Panels and Solar Panel Simulation with MATLAB Simulink
This project involved studying the physics of solar panels and implementing a simulation using MATLAB Simulink. The maximum peak power tracking (MPPT) algorithm was developed to control the system's duty ratio, optimizing efficiency. The simulation also analyzed the effects of irradiance and temperature variations on panel performance, with results aligning with theoretical expectations.
Spatial Antenna Array Simulation System for DOA Estimation and Radiation Pattern Control
This MATLAB-based simulation program implements a spatial antenna array system featuring the MUSIC algorithm for Direction of Arrival (DOA) estimation and null steering algorithm for adaptive weight calculation to achieve desired radiation patterns, including beamforming and interference suppression capabilities.
Simulation of Cross-Gain Modulation in Semiconductor Optical Amplifiers
Simulation of cross-gain modulation in semiconductor optical amplifiers applicable to bulk-SOAs, with parameter modifications enabling QD-SOA simulations. The implementation involves carrier rate equations and spectral gain models to capture nonlinear dynamics.
Implementation of Difference Algorithm in MATLAB
This project demonstrates a practical MATLAB implementation of difference algorithms for numerical simulation, featuring code examples and performance analysis.
FIR Digital Filter Simulation and Graphical Analysis using MATLAB
MATLAB-based FIR digital filter simulation with graphical outputs, complete source code ready to run in MATLAB environment. The implementation demonstrates filter design techniques and provides visual analysis tools for signal processing applications.
Simple Charge Controller Simulink Model with Hysteresis Control
A MATLAB Simulink model implementing a simple charge controller using hysteresis control to eliminate oscillations, specifically designed for renewable energy applications with embedded algorithm implementation details.
Extraction of Rayleigh Wave Dispersion Curves
Implementation of Rayleigh wave dispersion curve extraction, utilizing dispersion curves for wave simulation and imaging, followed by dispersion inversion analysis
Simulation of Queuing Problems Using Monte Carlo Method
Algorithm implementation of computer simulation for queuing problems through Monte Carlo method, featuring probability modeling and statistical analysis approaches.
Simulation Method for Time-Varying Non-Stationary ARMA Processes
A method for simulating time-varying non-stationary ARMA processes, which computes ARMA coefficients based on Doppler shift and time-varying parameters, enabling simulation of non-stationary multipath fading channels. Implementation involves dynamic coefficient calculation algorithms and signal generation techniques.