Aerospace Engineering Graduate • Control Systems & Model-Based Design • Embedded Systems
Aerospace Engineering Graduate from Cairo University with expertise in Control Systems, Model-Based Design, and Embedded Systems. I specialize in mathematical modeling, system dynamics, and control theory, with hands-on experience in PID control, state-space methods, and data acquisition systems.
My technical foundation includes proficiency in MATLAB/Simulink for model-based development, embedded C programming for microcontroller applications, and various engineering tools for system design and analysis. I have successfully completed several projects ranging from CubeSat development to autopilot system design.
I'm passionate about applying control system theory to real-world aerospace applications and have experience in teaching programming concepts to students, combining technical expertise with effective communication skills.
Taught programming basics using Python, creating engaging and beginner-friendly projects for young students. Developed curriculum and instructional materials to help students understand fundamental programming concepts through hands-on learning.
Completed comprehensive space training program covering satellite systems, space technology, and aerospace applications. Gained practical knowledge in space mission design and satellite subsystems.
Completed intensive embedded systems training covering microcontroller programming, hardware interfacing, and system design. Developed expertise in embedded C programming and device driver development.
Participated in University Design Challenge - Design, Build, and Fly competition, gaining hands-on experience in aircraft design, manufacturing, and testing.
Developed the On-Board Computer (OBC) subsystem for a 3U IoT Earth Observation satellite. This comprehensive project included hardware selection, interface design, software development, and integration with payload, communication, and power subsystems. Implemented data handling and control algorithms to support IoT-based agricultural monitoring applications.
Designed and analyzed seven different lightweight 2U CubeSat structures using SolidWorks and ANSYS. Evaluated aluminum alloy and birch plywood materials to ensure structural durability under launch loads and space environmental conditions. Performed comprehensive finite element analysis and optimization.
Designed and implemented an autopilot control feedback system for the CONVAIR 880M aircraft. Utilized PID control, successive loop closure, and state space methods with MATLAB & Simulink for model-based development and comprehensive system dynamics simulation.
Created a comprehensive door locker security system using two ATmega32 microcontrollers connected via UART communication. The HMI ECU handles user interface through keypad and LCD, while the CONTROL ECU manages password verification stored in EEPROM via I2C, door control using DC Motor, and security alarm system.
I'm always interested in discussing aerospace engineering projects, control systems challenges, or embedded systems development opportunities. Whether you're looking for expertise in MATLAB/Simulink development, microcontroller programming, or satellite systems design, feel free to reach out!