Mechatronics Lab Professor
SJSU
Overview
As the Mechatronics Lab Professor at SJSU, I bridged the theoretical and practical aspects of mechatronics, fostering a holistic educational experience for students. By integrating mechanical engineering, electronics, computer science, and systems engineering, I equipped students with both the knowledge and hands-on skills to excel in the development of intelligent systems and devices.
Collaborations and Achievements
- Enhanced students’ practical skills, ensuring they were not just confined to theoretical knowledge, as evidenced by the application-driven projects they developed.
- Introduced state-of-the-art equipment and software to the lab, ensuring students were familiar with industry-standard tools.
- Developed a course structure that emphasized hands-on learning, leading to consistently positive feedback from students
- Engaged with industry experts to provide students with insights into real-world applications of mechatronics, ensuring they were well-prepared for industry challenges post-graduation.
- Fostered inter-departmental collaborations, emphasizing the importance of interdisciplinary knowledge in the modern engineering landscape.
Course Content and Key Responsibilities
- Arduino Programming: Introduced students to the world of embedded systems using Arduino. Covered the basics of Arduino programming, interfacing sensors, and developing simple automation projects.
- Motor Controls: Delved into the principles of electric motors, their types, and control strategies. Taught students PID control, feedback systems, and real-time motor control techniques using microcontrollers.
- Filters and Signal Processing: Covered the basics of analog and digital filters. Students learned to design and implement filters for noise reduction, signal smoothing, and system control.
- Soldering and PCB Design: Conducted hands-on sessions on soldering techniques, enabling students to assemble and troubleshoot electronic circuits. Additionally, introduced principles of PCB design and fabrication.
- Software and Hardware Integration: Demonstrated the integration of software codes into hardware systems, ensuring students grasped the concept of software-driven hardware actions, essential for robotics and automation.
- Mechatronics System Design: Integrated various elements of the course to guide students in designing comprehensive mechatronic systems, emphasizing both design and functionality.