Current Position

Professor and Associate Chair for Graduate Studies, Department of Electrical Engineering

Education

Ph.D., Electrical Engineering, Carnegie-Mellon University
M.S., Electrical Engineering, Carnegie-Mellon University
B.S., Mathematics, Stanford University

Research Interests

Prof. Lemmon's research seeks to better understand the benefits and limitations of large-scale, networked control systems from both a theoretical and practical perspective. His theoretical work attempts to understand the fundamental principles that limited communication and computational resources have on a networked system's performance. Prof. Lemmon's work also has applied these ideas to real-life sensor-actuator networks used in managing important components of the nation's civil infrastructure, such as municipal wastewater sewer systems and the national power grid.

Key Words

Electricity and Smart Grid Technology, Microgrid

Relevant Energy Publications

1. Li, LichunLucinda, and Michael Lemmon. "Weakly coupled event triggered output feedback system in wireless networked control systems." Discrete Event Dynamic Systems 24, no. 2 (2014): 247-260.
2. Nightingale, Alice M., Bill Goodwine, Michael Lemmon, and Eric J. Jumper. "Phase-locked-loop adaptive-optic controller and simulated shear layer correction." AIAA Journal 51, no. 11 (2013): 2714-2726.
3. Wang, Zhao, Meng Xia, and Michael Lemmon. "Voltage stability of weak power distribution networks with inverter connected sources." In 2013 American Control Conference, pp. 6577-6582. IEEE, 2013.
4. Wang, Xiaofeng, and Michael Lemmon. "On event design in event-triggered feedback systems." Automatica 47, no. 10 (2011): 2319-2322.
5. Wang, Xiaofeng, and Michael D. Lemmon. "Self-Triggered Feedback Control Systems With Finite-Gain L2 Stability." IEEE Transactions on Automatic Control 54, no. 3 (2009): 452-467.

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