Projects
Spiral Bevel Gear
Project Description:
In this introductory Simulink project, I created a simple wave modulation model that demonstrates how to build and visualize the product of a sine and cosine signal. Starting with a blank Simulink canvas, I imported sine wave blocks from the Sources library and modified one to behave as a cosine wave by adjusting the phase. I connected these signals using a Product block from Math Operations and displayed the outputs using the Scope block from Sinks. To enhance visualization, I branched the signals to view the individual sine, cosine, and modulated outputs together.
More Details
To further streamline the workflow, I integrated MATLAB variables into the Simulink model by creating a live script where amplitude and frequency parameters were defined and stored in the workspace. These variables were then referenced directly in the Simulink block parameters, allowing easy updates and reusability for future simulations. Adjusting sample time and visualization settings improved signal clarity and ensured accurate time-domain analysis.
Through this exercise, I gained hands-on experience in Simulink fundamentals, including block importing, signal connections, block parameterization, and visualization. I also learned how to use MATLAB scripts to efficiently manage simulation parameters, improving modularity and flexibility in system modeling. This foundational project helped me understand how algebraic equations can be modeled in Simulink and laid the groundwork for more advanced simulations in control systems and signal processing.
Internal Gear
Project Description:
In this introductory Simulink project, I created a simple wave modulation model that demonstrates how to build and visualize the product of a sine and cosine signal. Starting with a blank Simulink canvas, I imported sine wave blocks from the Sources library and modified one to behave as a cosine wave by adjusting the phase. I connected these signals using a Product block from Math Operations and displayed the outputs using the Scope block from Sinks. To enhance visualization, I branched the signals to view the individual sine, cosine, and modulated outputs together.
More Details
To further streamline the workflow, I integrated MATLAB variables into the Simulink model by creating a live script where amplitude and frequency parameters were defined and stored in the workspace. These variables were then referenced directly in the Simulink block parameters, allowing easy updates and reusability for future simulations. Adjusting sample time and visualization settings improved signal clarity and ensured accurate time-domain analysis.
Through this exercise, I gained hands-on experience in Simulink fundamentals, including block importing, signal connections, block parameterization, and visualization. I also learned how to use MATLAB scripts to efficiently manage simulation parameters, improving modularity and flexibility in system modeling. This foundational project helped me understand how algebraic equations can be modeled in Simulink and laid the groundwork for more advanced simulations in control systems and signal processing.
CAD and Simulation Projects
Discover projects that reflect my passion, skills, and the impact I strive to create in every endeavor.
Front Lower Control Arm Design for Formula-Style Suspension System
3D Modeling and Design of a Double Wishbone Suspension Component using Autodesk Inventor
Internal Gear
Designed an Internal Gear
Front Lower Control Arm Design for Formula-Style Suspension System
3D Modeling and Design of a Double Wishbone Suspension Component using Autodesk Inventor
Python-Based Control Systems Projects
Discover projects that reflect my passion, skills, and the impact I strive to create in every endeavor.
Spiral Bevel Gear
Designed a spiral bevel gear using SolidWorks
Internal Gear
Designed an Internal Gear
Educational Research Project
Thesis on Learning Methods
Conducted an in-depth study on innovative teaching techniques and their effectiveness in higher education.