January 30, 2013 Read More →

Yongqiang Wang

Assistant Project Manager

Research

1. Systems modeling and analysis of circadian rhythm networks, reverse engineering of synchrony as an algorithmic strategy for wireless communication network control.
2. Fault detection, control and estimation for networked control systems (control systems whose control loops are closed via a serial communication channel) subject to random network-induced delay, packet dropout, limited communication resources, etc.
3. Model based detection and diagnosis of faults in engineering systems: whether they occur in the plant (the technical equipment) or in its measurements and control instruments. Data-driven fault diagnosis: identification of fault detection system parameters from the test data directly.

Education

B.S., School of Electrical Engineering, Xi’an Jiaotong University, 2004
Ph.D., Department of Automation, Tsinghua University, 2009
My Webpage

Publications
Statistical analysis of the pulse-coupled synchronization strategy for wireless sensor networks
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]
Intercellular delay regulates the collective period of repressively coupled gene regulatory oscillator networks
Y. Q. Wang, Y. Hori, S. Hara, F. J. Doyle III. Intercellular delay regulates the collective period of repressively coupled gene regulatory oscillator networks. IEEE Transactions on Automatic Control, In press. [DOI]
Increasing sync rate of pulse-coupled oscillators via phase response function design: theory and application to wireless networks
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]
The influence of global and local cues on the rate of synchronization in the presence of time delays
Y. Q. Wang, F. J. Doyle III. “The influence of global and local cues on the rate of synchronization in the presence of time delays,” Automatica, (in press) [DOI]
Exponential synchronization rate of Kuramoto oscillators in the presence of a pacemaker
Y. Q. Wang, F. J. Doyle III. Exponential synchronization rate of Kuramoto oscillators in the presence of a pacemaker. IEEE Transactions on Automatic Control, 58(4)9889-994, 2013 [DOI]
Optimal phase response functions for fast pulse-coupled synchronization in wireless sensor networks
Y. Q. Wang, F. J. Doyle III. “Optimal phase response functions for fast pulse-coupled synchronization in wireless sensor networks,” IEEE Transactions on Signal Processing. vol. 60, no. 10, 2012, pp. 5583–5588, October 2012. [DOI]
Energy-efficient pulse-coupled synchronization strategy design for wireless sensor networks through reduced idle listening
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]
On influences of global and local cues on the rate of synchronization of oscillator networks
Y.Q. Wang, F.J. Doyle III “On influences of global and local cues on the rate of synchronization of oscillator networks,” Automatica, vol. 47, no. 6, June 2011. [DOI]