Teaching

Teaching Experiences

2025 – Present | Instructor | University of South Alabama, Mechanical, Aerospace & Biomedical Engineering Dept.  

- Courses:  

  - Fluid Mechanics: Spring 2025  

2013 – 2017 | Teaching Assistant | University of Kentucky, Mechanical & Aerospace Engineering Dept.  

- Courses:  

  - Control Systems: Fall 2013, Spring 2014, Fall 2015  

  - Dynamic Systems: Spring 2016, Fall 2016, Spring 2017  

  - Mechanics of Materials: Spring 2015  

  - Statics: Fall 2014  

2012 – 2013 | Teaching Assistant | University of Tehran, Mechatronics Engineering Dept.

- Courses:

  - Advanced Robotics: Spring 2012, Spring 2013  

  - Mechatronics I & II: Spring 2012, Fall 2012, Spring 2013  

2011 – 2013 | Instructor | University of Tehran, Mechatronics Engineering Dept.

- Courses:  

  - Mechatronics I & II Lab: Spring 2012, Fall 2012, Spring 2013  

2010 – 2011 | Instructor | University of Tehran, Mechanical Engineering Dept. 

- Course:  

  - Mechatronics I Lab: Fall 2010, Fall 2011  

Teaching Interests

My teaching interests are deeply rooted in the fields of Dynamic Systems and Control, Robotics, and Mechatronics. I am passionate about conveying complex concepts in these areas to students and fostering an environment where theory and practice converge. My specific interests include:

• Dynamic Systems & Control: Exploring the principles of system dynamics, feedback control, and stability analysis.

• Flight Mechanics & Control: Delving into the dynamics and control strategies for aerospace vehicles.

• Intermediate Dynamics: Teaching the advanced concepts of motion and forces in mechanical systems.

• Robotics & Mechatronics: Guiding students through the integration of mechanical systems with electronics and intelligent control.

• Fluid Mechanics & Thermodynamics: Exploring fundamental principles of fluid mechanics and thermodynamics 

• Digital Control: Introducing digital techniques for the control of dynamic systems, including sampling and discrete-time analysis.

• Advanced Multivariable Control: Exploring control strategies for systems with multiple inputs and outputs.

• Nonlinear Systems & Control: Discussing the behavior of nonlinear systems and methods for their control.

• Robust & Adaptive Control: Addressing control strategies that can handle uncertainties and changing conditions in systems.

• Optimal Control: Teaching techniques for determining the best possible control strategies for dynamic systems.

• Astrodynamics: Covering the motion of spacecraft and celestial bodies, with a focus on orbital mechanics.

• Data Analysis & System Identification: Introducing methods for modeling systems based on observed data, and identifying system parameters.

These areas reflect my commitment to teaching the next generation of engineers and researchers, providing them with the tools and knowledge they need to excel in their careers.