Control theory and its application to networks. I am currently focusing on Bio-inspired strategies to achieve robust synchronization of networks of autonomous agents communicating using wireless channels. Our algorithms aim to achieve fast synchronization while maintaining robustness with respect to network topology, channel variations, and internal disturbances. My past research focused on Process Control, Fuzzy Systems, and Mineral Processing.
B.S., Electrical Engineering, Pontificia Universidad Católica de Chile, 2007
M.S., Electrical Engineering, Pontificia Universidad Católica de Chile, 2008
Y. Q. Wang, F. Nunez, F. J. Doyle III. Statistical analysis of the pulse-coupled synchronization strategy for wireless sensor networks. IEEE Transactions on Signal Processing, In press. [DOI]
Y. Q. Wang, F. Nunez, F. J. Doyle III, “Increasing sync rate of pulse-coupled oscillators via phase response function design: theory and application to wireless networks,” IEEE Transactions on Control Systems Technology. (in press) [DOI]
Y. Q. Wang, F. Nunez, F. J. Doyle III. “Energy-efficient pulse-coupled synchronization strategy design for wireless sensor networks through reduced idle listening,” IEEE Transactions on Signal Processing, vol. 60, no. 10, 2012, pp. 5293–5306, October 2012. [DOI]