Derek A. Paley

Paley earned a Bachelor of Science degree in Applied Physics from Yale University in 1997 and went on to receive a Doctor of Philosophy in Mechanical and Aerospace Engineering from Princeton University in 2007.^[7]

He founded the Collective Dynamics and Control Laboratory (CDCL) in 2007, focusing on the development of algorithms and control systems for autonomous robotic vehicles and bioinspired systems.^[8] Since becoming Director of the Maryland Robotics Center in 2019,^[9] Paley has overseen developments in robotics education and research at the University of Maryland.^[10]

He has received teaching awards, such as the UMD Distinguished Scholar-Teacher Award and the Exemplary Researcher Award. Paley also serves as the Technical Director of the M.Eng. Robotics program.^[11]

The Autonomous Micro Air Vehicle (AMAV) team, which he founded, has won multiple national awards, including the NIST UAS First Responder Challenge.^[12][13] He was also honored as a UMD Distinguished Scholar-Teacher for the 2020–2021 academic year. He is also and Associate Fellow with the American Institute of Aeronautics and Astronautics and is a Senior Member of the Institute of Electrical and Electronics Engineers.^[11]

His work includes developing distributed control algorithms, conducting hypothesis-driven studies on biological collectives, and optimizing sensor networks for environmental monitoring.^[14] His research has been funded by agencies such as DARPA, the Army Research Laboratory (ARL), and the Office of Naval Research (ONR), with total funding exceeding $23 million.^[15][16]

Paley's research integrates dynamics, estimation, and control theory to address challenges in autonomous robotics, mobile sensor networks, and bioinspired engineering.^[17]

He has published in the fields of dynamics and controls, with over 100 peer-reviewed articles and his work has been cited more than 8,000 times, with an h-index of 38 as of 2024.^[6] In 2021, he explored autonomous scooters as part of his research in robotics and artificial intelligence.^[3] His interest in autonomous systems began in the late 1990s when he encountered autonomous underwater vehicles, which led him to pursue graduate studies in control systems.^[18] Paley's recent work involves developing self-driving scooters, focusing on their ability to reposition themselves for greater convenience in shared spaces like college campuses.^[19]

Paley and his students have built prototypes of autonomous scooters equipped with sensors, working towards a goal of enabling scooters to travel short distances autonomously.^[20]

Paley and his team have developed fish-inspired underwater vehicles with flexible tails powered by electric motors and momentum wheels.^[21]These robots are designed to mimic real fish movements and respond to hydrodynamic signals, including vortices generated by nearby "fish."^[1]

• Leonard, Naomi Ehrich; Paley, Derek A.; Lekien, Francois; Sepulchre, Rodolphe; Fratantoni, David M.; Davis, Russ E. (2007). "Collective Motion, Sensor Networks, and Ocean Sampling". Proceedings of the IEEE. 95 (1): 48–74. doi:10.1109/jproc.2006.887295. ISSN 0018-9219.
• Fiorelli, E.; Leonard, N.E.; Bhatta, P.; Paley, D.; Bachmayer, R.; Fratantoni, D.M. (2004). "Multi-AUV control and adaptive sampling in Monterey Bay". 2004 IEEE/OES Autonomous Underwater Vehicles (IEEE Cat. No.04CH37578). IEEE: 134–147. doi:10.1109/auv.2004.1431204.
• Sepulchre, Rodolphe; Paley, Derek A.; Leonard, Naomi Ehrich (2007). "Stabilization of Planar Collective Motion: All-to-All Communication". IEEE Transactions on Automatic Control. 52 (5): 811–824. doi:10.1109/tac.2007.898077. ISSN 0018-9286.
• Sepulchre, Rodolphe; Paley, Derek A.; Leonard, Naomi Ehrich (2008). "Stabilization of Planar Collective Motion With Limited Communication". IEEE Transactions on Automatic Control. 53 (3): 706–719. doi:10.1109/tac.2008.919857. ISSN 0018-9286.
• Leonard, Naomi E.; Paley, Derek A.; Davis, Russ E.; Fratantoni, David M.; Lekien, Francois; Zhang, Fumin (2010-09-21). "Coordinated control of an underwater glider fleet in an adaptive ocean sampling field experiment in Monterey Bay". Journal of Field Robotics. 27 (6): 718–740. doi:10.1002/rob.20366. ISSN 1556-4959.
• "Oscillator Models and Collective Motion". IEEE Control Systems. 27 (4): 89–105. 2007. doi:10.1109/mcs.2007.384123. ISSN 1066-033X.
• Paley, D.A.; Zhang, F.; Leonard, N.E. (2008). "Cooperative Control for Ocean Sampling: The Glider Coordinated Control System". IEEE Transactions on Control Systems Technology. 16 (4): 735–744. doi:10.1109/tcst.2007.912238. ISSN 1063-6536.
• Zhang, F.; Fratantoni, D. M.; Paley, D. A.; Lund, J. M.; Leonard, N. E. (2007). "Control of coordinated patterns for ocean sampling". International Journal of Control. 80 (7): 1186–1199. doi:10.1080/00207170701222947. ISSN 0020-7179.
• Sepulchre, Rodolphe; Paley, Derek; Leonard, Naomi (2004-11-13), "Collective Motion and Oscillator Synchronization", Lecture Notes in Control and Information Sciences, Berlin, Heidelberg: Springer Berlin Heidelberg, pp. 189–205, ISBN 978-3-540-22861-5, retrieved 2024-11-27
• Bachmayer, R.; Leonard, N.E.; Graver, J.; Fiorelli, E.; Bhatta, P.; Paley, D. "Underwater gliders: recent developments and future applications". Proceedings of the 2004 International Symposium on Underwater Technology (IEEE Cat. No.04EX869). IEEE: 195–200. doi:10.1109/ut.2004.1405540.

• Paley's research at Google Scholar
• Paley's profile at IEEE