HI THERE!
I'M AHMED OSAMA
MECHATRONICS ENGINEER STUDENT
HI THERE!
I'm Ahmed Osama, a mechatronics engineering student with a passion for innovation and problem-solving. I'm interested in robotics, automation, and control systems and have experience in programming, electronics, mechanics, and design. I've worked on exciting projects like building a robotic arm and designing a self-balancing robot. Aspiring to make a positive impact on society, I'm eager to apply my skills and knowledge to real-world problems. Feel free to connect with me for any questions or inquiries.
Solid works, Fusion 360 and autocad used on various projects
3d printing used to rapidly prototype parts
Arduino and raspberry pi used in various projects
Linux, Matlab, simulink, python and Microsoft office
Created CAD design with SolidWorks Designed six parts, including main bearing journals, crank pins, counterweights, piston crown, piston skirt, and wrist pin Assembled parts using SolidWorks to create complete crankshaft and piston assembly Tested assembly using simulation tools
Critical to engine efficiency and performance Parts needed to withstand extreme stresses and forces SolidWorks streamlined design process Simulation tools allowed for testing and optimization before manufacturing
Highly efficient and durable assembly Can be used in a variety of applications SolidWorks allowed for accurate modeling and testing Optimized design resulted in an efficient, reliable product Assembly able to withstand stresses and forces involved in high-speed rotation
Design the pendulum using SolidWorks to create a 3D model of the pendulum structure. Use Simulink to simulate the dynamics of the pendulum and create a mathematical model for the system. Program the model into MATLAB and use it to control the pendulum system through Simiescap.
Pendulum systems are commonly used in control theory and robotics to demonstrate the concepts of stability and control. By using MATLAB and Simulink, it is possible to create an accurate mathematical model of the pendulum system and test various control algorithms. SolidWorks allows for the creation of a detailed and accurate 3D model, which can aid in the design and construction of the physical pendulum.
The use of MATLAB and Simulink can result in the development of effective control algorithms for the pendulum system. The use of SolidWorks can aid in the design and construction of a physical pendulum that matches the modeled system. The integration of Simiescap allows for real-time control of the physical pendulum system based on the mathematical model developed in MATLAB and Simulink
Construct a small car using a chassis, two DC motors, an H-bridge module, and a Raspberry Pi. Write Python code to control the speed and direction of the DC motors using the H-bridge module, and program the Raspberry Pi to receive input from sensors for autonomous operation. Add sensors such as ultrasonic or line-following sensors for more advanced capabilities.
Building a small car with the Raspberry Pi and Python code is a fun and educational project for beginners in electronics and programming. The project teaches motor control, sensor integration, and basic robotics principles. The car can be used for remote control, autonomous operation, or educational demonstrations.
A customizable small car that can perform various behaviors, such as following a line, avoiding obstacles, or navigating a maze. The car can be remotely controlled or programmed for autonomous operation using sensors. The project provides a hands-on learning experience in electronics and programming, and inspires creativity and innovation for future projects.
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RemotelyTeam Leader
RemotelyPower Department Member
University of Central Lancashire - EUEMechatronics Engineer
University of Central Lancashire - EUETeam Member
University of Central Lancashire - EUE