Mechanical & Aerospace Engineering
Mechanical Engineering, Sharif University of Technology, Tehran
Applied Mechanics, Sharif University of Technology, Tehran
Mechanical Engineering, KNT University of Technology, Tehran
Dr. Fahimi has over 10 years of research experience in dynamic modeling, system identification, linear and nonlinear controls, with applications to robotic system and autonomous vehicles. He received a PhD degree in Mechanical Engineering on dynamic modeling of flexible multi-body systems in 1999. He has graduated 8 Masters students, and has offered several senior design projects. He is currently supervising several full time and part time graduate students. He has taught several undergraduate and graduate level courses such as Dynamics, Vibrations, System Dynamics, Elasiticty, Finite Element Method, Introduction to Robotics, and Advanced Robotics. He has authored a graduate level text book titles: Autonomous Robots; Modeling, Path Planning, and Control.
- Linear and Nonlinear Controls
- System Identification
- Applied Control
- Dynamics and Robotics
- Autonomous Vehicles (Ground, Marine, Aerial)
Honors & Awards
- Junior Faculty Distinguished Award, Office of the Vice President for Research, UAHuntsville, 2011
Siramdasu, Y., Fahimi, F., “Incorporating Input Saturation for Surface Vessel Control with Experiments,” Accepted for publication, Control and Intelligent Systems, 2012, 8 pages.
Dawson, M., Fahimi, F., Carey, J., “The development of a myoelectric training tool for above-elbow amputees,” The Open Biomedical Engineering Journal, 2012, vol. 6, pages 5-15.
Van Kleeck, C., and Fahimi, F., “Alternative trajectory-tracking control approach for marine surface vessels with experimental verification,” Robotica, Accepted for publication, 2011.
Dawson, M., Fahimi, F., Carey, J., “Review of myoelectric training systems,” Expert Review of Medical Devices, September 2011, vol. 8, no. 5, Pages 581-589.
Fahimi, F., Saffarian, M., “The control point concept for nonlinear trajectory-tracking control of autonomous helicopters with fly-bar,” International Journal of Control, vol. 84, no. 2, 2011, pages 242-252 .
Schoerling, D. , Van Kleeck, C., Fahimi, F., Koch, C. R., Ams, A., Löber, P., “Experimental test of a robust formation controller for marine unmanned surface vessels,” Autonomous Robots, vol. 28, no. 2, 2010, pages 213 - 230.
Saffarian, M. and Fahimi, F., "Non-Iterative nonlinear model predictive approach applied to the control of helicopters' group formation," Robotics and Autonomous Systems, vol. 57, no. 6-7,
2009, pages 749 – 757.
Saffarian, M., and Fahimi F., "A Model Predictive Framework for Autonomous Formation Flight of Helicopter Groups," Control and Intelligent Systems, vol. 37, no. 4, 2009, pages 1-7.
Fahimi, F., Nataraj, C.; Ashrafiuon, H., "Real-time obstacle avoidance for multiple mobile robots," Robotica, 2009, vol. 27, no. 2, pages 189 – 198.
F. Fahimi, R. SiddaReddy, and C. Nataraj, "Formation controllers for under-actuated surface vessels and zero dynamics stability,” Control and Intelligent Systems, vol. 36, no. 3, 2008, p 277-287.
F. Fahimi, "Full formation control of autonomous helicopters groups,” Robotica, vol. 26, no. 2, pp. 143 - 156, 2008.
F. Fahimi, "Non-linear model predictive formation control for groups of autonomous surface vessels,” International Journal of Control, vol. 80, no. 8, pp. 1248 - 1259, 2007.
F. Fahimi, "Sliding-mode formation control for underactuated surface vessels,” IEEE Transactions on Robotics, vol. 23, no. 3, pp. 617 - 622, 2007.
M. Nikkhah, H. Ashrafiuon, and F. Fahimi, "Robust control of under-actuated bipeds using sliding modes,” Robotica, vol. 25, no. 3, pp. 367 - 374, 2007.