Aerospace Engineer | Robotics & Control Systems | MATLAB/Simulink | Python | SolidWorks | Arduino & Microcontrollers | UAV design and development | Automation & Intelligent Systems Engineer

A dedicated Aerospace Engineering student with a strong passion for robotics, automation, control systems, and aerospace technologies. Proficient in SolidWorks, MATLAB/Simulink, Arduino, Python, C++, and XFLR5, with hands-on experience in designing, modeling, simulating, and analyzing engineering systems. Skilled in integrating theoretical engineering concepts into practical applications through computational simulations, hardware implementation, and control system development.

Experienced in aerodynamic analysis and computational simulations using XFLR5, where extensive studies were conducted on more than 100 airfoils in both 2D and 3D configurations. Performed aerodynamic investigations on various wing geometries including tapered, rectangular, and swept wings to validate theoretical aerodynamic principles through detailed computational analysis and performance evaluation.

Worked on the Modeling and Control of a Single-Axis Gyro System using a BLDC motor and encoder. Developed the mathematical model of the system and implemented PID control in MATLAB/Simulink for stabilization and performance optimization. Successfully achieved real-world hardware validation and accurate stabilization through practical implementation and testing.

Designed and modeled a Quadcopter UAV in SolidWorks, including structural frame development, component placement, and aerodynamic considerations. Performed simulation-based analysis for improving structural efficiency and flight stability while integrating UAV dynamics and control concepts.

Developed and simulated robotic arm systems in MATLAB/Simulink with control algorithm implementation and kinematic analysis. Worked on robotic motion control, trajectory planning, and system response optimization for automation-based applications.

Experienced in the modeling and estimation of nonlinear systems, including the Design and Estimation of a Double Inverted Pendulum on Cart System (DIPCS) using Extended Kalman Filter (EKF) in MATLAB/Simulink. Applied advanced control theory, dynamic modeling, and state estimation techniques to analyze and stabilize complex nonlinear systems.

Additional experience includes Arduino-based embedded systems, sensor interfacing, automation projects, UAV dynamics, state-space modeling, PID tuning, control system simulations, mathematical modeling, and engineering research. Passionate about solving real-world engineering problems through innovative design, simulation, and intelligent control strategies while continuously expanding technical and research capabilities in aerospace and robotics engineering.

Work Terms

I am committed to providing high-quality, reliable, and result-oriented services tailored to each client’s specific requirements. My primary focus is on delivering accurate work with clear communication, strong attention to detail, and timely completion of all tasks.

Before starting any project, I prefer to clearly understand the scope, objectives, and expected outcomes to ensure smooth execution and avoid misunderstandings. I believe that a well-defined requirement leads to better results and higher client satisfaction.

I maintain regular communication throughout the project and provide updates whenever necessary, especially for long-term or complex tasks. Clients are encouraged to ask questions, request clarifications, or suggest adjustments at any stage of the project.

Revisions are accepted within the agreed project scope to ensure the final output meets expectations. However, any major changes beyond the initial requirements may require additional time or cost adjustments, which will always be discussed transparently beforehand.

Timely delivery is one of my top priorities. The delivery timeline depends on the complexity and size of the project, and I always ensure realistic deadlines are set from the beginning. If any unforeseen delay occurs, I will inform the client in advance.

I strictly follow professional ethics, including confidentiality and respect for client data. Any information shared during the project will remain secure and will not be disclosed to any third party.

I aim to build long-term professional relationships with clients by providing consistent quality work, maintaining honesty, and ensuring complete client satisfaction.

My expertise in engineering, mathematics, simulation, programming (Python, C++, MATLAB), UAV systems, and control design allows me to handle both academic and professional projects efficiently.