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Omead Amidi
Senior Systems Scientist

Associated center: VASC

Email address: omead.amidi@cs.cmu.edu

Mailing address:
Carnegie Mellon University
Robotics Institute
5000 Forbes Avenue
Pittsburgh, PA 15213

For more information, see my personal homepage.

Jump to: Research interests | Keywords | Labs & groups | Projects | Publications

Research interests

My goal is to build vision-guided autonomous flying robots. Vision allows such robots to serve as intelligent eyes-in-the-sky suitable for numerous applications including law enforcement, search and rescue, aerial mapping and inspection, and movie making. Vision for flight control encompasses a broad range of research areas. In particular, I am interested in vision-based object detection and tracking, optical position estimation, inertial navigation, GPS, and non-linear system modeling. I am the co-founder (with Takeo Kanade) of the Autonomous Helicopter Laboratory where we have developed a number of autonomous helicopters for our ongoing research in such areas. We have developed two six degree-of-freedom testbeds for indoor helicopter control experiments. In addition, we have built two fully autonomous helicopters for outdoor vision-guided flight research. These prototypes are mid-sized (14 ft. long) crop dusters outfitted with custom-designed vision systems and an array of sensors including accelerometers, angular sensors, and GPS receivers. Each can fly autonomously using an on-board visual odometer which estimates motion by locking-on to and visually tracking ground objects. In addition, we have integrated inertial and angular sensors and a GPS receiver with vision for high quality position estimation allowing autonomous landing, takeoff, and smooth trajectory following. Currently, we are developing a number of new flight systems. In particular, we are developing real-time object trackers for high speed aerial pursuit, compact laser scanners for obstacle detection and 3D mapping, and versatile control systems for transitioning to high-speed flight maneuvers.

This section last updated - January 1999.

Research interest keywords

biological vision

Current Labs & Groups

Helicopter Lab - A vision-guided robot helicopter which can function in any weather conditions using only on-board intelligence and computing power.

Current Projects

Autonomous Helicopter - Develop a vision-guided robot helicopter	PerceptOR (NREC) - We have developed a novel semi-autonomous unmanned ground vehicle (UGV) that includes a dedicated unmanned air vehicle - a "Flying Eye" - that flies ahead of the UGV to detect hazards before the onboard UGV sensors would.
Reconfigurable Vision Machine - Developing new hardware and software for high performance computer vision.

Recent publications [View all 22 publications]

• Cascaded Position and Heading Control of a Robotic Helicopter
  M. Bergerman, O. Amidi, J.R. Miller, N.M. Vallidis, and T.J. Dudek
  Proceedings of the 2007 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS '07), October, 2007, pp. 135 - 140. [Abstract]
  Download: pdf [618 KB] copyrighted

• Toward Reliable Off Road Autonomous Vehicles Operating in Challenging Environments
  A. Kelly, A. Stentz, O. Amidi, M.W. Bode, D. Bradley, A. Diaz-Calderon, M. Happold, H. Herman, R. Mandelbaum, T. Pilarski, P. Rander, S. Thayer, N.M. Vallidis, and R. Warner
  The International Journal of Robotics Research, Vol. 25, No. 5-6, May, 2006, pp. 449-483. [Abstract]
  Download: pdf [847 KB] copyrighted

• Planning 3-D Path Networks in Unstructured Environments
  N. Vandapel, J. Kuffner, and O. Amidi
  Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), April, 2005, pp. 4624 - 4629. [Abstract]
  Download: pdf [469 KB] copyrighted

• Real-Time and 3D Vision for Autonomous Small and Micro Air Vehicles
  T. Kanade, O. Amidi, and Q. Ke
  43rd IEEE Conference on Decision and Control (CDC 2004), December, 2004. [Abstract]
  Download: pdf [1335 KB] copyrighted

• EigenFairing: 3D Model Fairing using Image Coherence
  P. Mishra, O. Amidi, and T. Kanade
  British Machine Vision Conference (BMVC) 2004, British Machine Vision Association, London, United Kingdom, Vol. 1, September, 2004, pp. 17-26. [Abstract]
  Download: pdf [2635 KB] copyrighted

• Toward Laser Pulse Waveform Analysis for Scene Interpretation
  N. Vandapel, O. Amidi, and J.R. Miller
  IEEE International Conference on Robotics and Automation, Vol. 1, May, 2004, pp. 950 - 955. [Abstract]
  Download: pdf [386 KB] copyrighted

• Real-Time, Multi-Perspective Perception for Unmanned Ground Vehicles
  A. Stentz, A. Kelly, P. Rander, H. Herman, O. Amidi, R. Mandelbaum, G. Salgian, and J. Pedersen
  Proc. of AUVSI Unmanned Systems Symposium 2003, July, 2003. [Abstract]
  Download: pdf [302 KB] copyrighted

• An active camera system for acquiring multi-view video
  R. Collins, O. Amidi, and T. Kanade
  Proceedings of the 2002 International Conference on Image Processing (ICIP '02), September, 2002, pp. 517 - 520.
  Download: pdf [352 KB] copyrighted

• Integrated Air/Ground Vehicle System for Semi-Autonomous Off-Road Navigation
  A. Stentz, A. Kelly, H. Herman, P. Rander, O. Amidi, and R. Mandelbaum
  Proc. of AUVSI Unmanned Systems Symposium 2002, July, 2002. [Abstract]
  Download: pdf [531 KB] copyrighted

• A visual odometer for autonomous helicopter flight
  O. Amidi, T. Kanade, and K. Fujita
  Journal of Robotics and Autonomous Systems, Vol. 28, August, 1999, pp. 185 - 193.
  Download: pdf [1163 KB] copyrighted