Education:

09/00- 06/05     University of Notre Dame (Ph.D.)

             Major:  Electrical Engineering

              Thesis: “Stability and Performance of control system with limited feedback information”

09/97-07/00     Tsinghua University (M.S.)

             Major:  Control Theory and Control Engineering

              Thesis: “Study on the Application of Variable Structure Control”

09/92-07/97     University of Science and Technology of China (B.S.)

             Major:  Automatic Control

              Thesis: “Robust State Filter and LQG Regulator of a Discrete-Time Linear

                                        Descriptor System with Uncertain Noises”
Research Areas:

● Jump linear systems: The overall system jump among individual linear subsystems. Whe...

Education:

09/00- 06/05 University of Notre Dame (Ph.D.)

Major: Electrical Engineering

Thesis: “Stability and Performance of control system with limited feedback information”

09/97-07/00 Tsinghua University (M.S.)

Major: Control Theory and Control Engineering

Thesis: “Study on the Application of Variable Structure Control”

09/92-07/97 University of Science and Technology of China (B.S.)

Major: Automatic Control

Thesis: “Robust State Filter and LQG Regulator of a Discrete-Time Linear

Descriptor System with Uncertain Noises”
Research Areas:

● Jump linear systems: The overall system jump among individual linear subsystems. When the jumping rule is governed by a Markov chain, it becomes Markovian jump linear systems. I investigate stability, performance of such Markovian jump linear systems.

● Networked control systems: When the control feedback is closed over digital network, we get a class of networked control systems. Due to insertion of non-deterministic digital network, the feedback information can be unreliable and have finite precision. What are the effects of such non-ideal features on stability and performance of control systems? How can these effects be mitigated? They are mainly my research topics.

● Signal processing and communication: My research is mainly on data storage systems, more specifically on servo demodulation systems. I study timing recovery, servo demodulation (head position estimation from the servo readback signal), servo pattern design, joint design of servo demodulation and servo control systems, etc.

Working experience:

03/08- present University of Science and Technology of China

Title: Associate Professor

06/05-03/08 Seagate Technology, Pittsburgh research center

Title: Research Staff Member
Teaching:

Fall, 2008, Linear Systems

Dept. of Automation, University of Science and Technology of China

　　1. Donglin Liu, Xiaobo Hu, Micheal D. Lemmon and Qiang Ling, “Firm real-time system scheduling based on a novel QoS constraint”, IEEE Transactions on Computers, vol 55(3), pp. 320-333, 2006.

　　2. Qiang Ling and Micheal D. Lemmon, “Stability of quantized control systems under dynamic bit assignment”, IEEE Transactions on Automatic Control, vol 50(5), pp. 734－740, 2005.

　　3. Qiang Ling and Micheal D. Lemmon, “Power spectral analysis of networked control systems with data dropouts”, IEEE Transactions on Automatic Control, vol 49(6), pp. 955-960, 2004.

　　4. Qiang Ling, Wenli Xu, and Feng Chen, "Study on the speed observer and the rotor resistance identifier of an induction motor", Journal of the Chinese Society for Electrical Engineering, no. 9, pp. 58-62, 2001.

　　5. Qiang Ling, Wenli Xu, and Feng Chen, "A robust variable structure observer of an induction motor", Control and Decision, vol.15, no. 6, pp. 663-666, 2000.

　　6. Qiang Ling and Micheal D. Lemmon, “Optimal dynamic bit assignment in second-order noise-free quantized linear control systems”, 44th IEEE Conference on Decision and Control and 2005 European Control Conference, December 2005.

　　7. Donglin Liu, Xiaobo Hu, Micheal D. Lemmon and Qiang Ling, “Scheduling tasks with Markov-chain constraints”, 17th Euromicro Conference on Real-Time Systems, July 2005.

　　8. Qiang Ling and Micheal D. Lemmon, “Stability of quantized linear systems with bounded noise under dynamic bit assignment”, 43rd IEEE Conference on Decision and Control, December 2004.

　　9. Micheal D. Lemmon and Qiang Ling, “Control system performance under dynamic quantiz...

　　1. Donglin Liu, Xiaobo Hu, Micheal D. Lemmon and Qiang Ling, “Firm real-time system scheduling based on a novel QoS constraint”, IEEE Transactions on Computers, vol 55(3), pp. 320-333, 2006.

　　2. Qiang Ling and Micheal D. Lemmon, “Stability of quantized control systems under dynamic bit assignment”, IEEE Transactions on Automatic Control, vol 50(5), pp. 734－740, 2005.

　　3. Qiang Ling and Micheal D. Lemmon, “Power spectral analysis of networked control systems with data dropouts”, IEEE Transactions on Automatic Control, vol 49(6), pp. 955-960, 2004.

　　4. Qiang Ling, Wenli Xu, and Feng Chen, "Study on the speed observer and the rotor resistance identifier of an induction motor", Journal of the Chinese Society for Electrical Engineering, no. 9, pp. 58-62, 2001.

　　5. Qiang Ling, Wenli Xu, and Feng Chen, "A robust variable structure observer of an induction motor", Control and Decision, vol.15, no. 6, pp. 663-666, 2000.

　　6. Qiang Ling and Micheal D. Lemmon, “Optimal dynamic bit assignment in second-order noise-free quantized linear control systems”, 44th IEEE Conference on Decision and Control and 2005 European Control Conference, December 2005.

　　7. Donglin Liu, Xiaobo Hu, Micheal D. Lemmon and Qiang Ling, “Scheduling tasks with Markov-chain constraints”, 17th Euromicro Conference on Real-Time Systems, July 2005.

　　8. Qiang Ling and Micheal D. Lemmon, “Stability of quantized linear systems with bounded noise under dynamic bit assignment”, 43rd IEEE Conference on Decision and Control, December 2004.

　　9. Micheal D. Lemmon and Qiang Ling, “Control system performance under dynamic quantization: the scalar case”, 43rd IEEE Conference on Decision and Control, December 2004.

　　10. Qiang Ling and Micheal D. Lemmon, “Stability of quantized control systems under dynamic bit assignment”, American Control Conference 2004, Boston, MA, June 2004.

　　11. Qiang Ling and Micheal D. Lemmon, “Optimal dropout compensation in networked control systems”, 42nd IEEE Conference on Decision and Control, Hawaii, December 2003.

　　12. Micheal D. Lemmon, Qiang Ling, and Yashan Sun, “Overload management in sensor-actuator networks used for spatially distributed control systems”, 1st ACM Conference on Embedded Network Sensor Systems (SenSys03), UCLA, November 2003.

　　13. Donglin Liu, Xiaobo Hu, Micheal D. Lemmon and Qiang Ling “Firm real-time scheduling based on a novel QoS constraint”, Real-time Systems Symposium (RTSS’03), Cancun Mexico, 2003.

　　14. Qiang Ling and Micheal D. Lemmon, “Soft real-time scheduling of networked control systems with dropouts governed by a Markov chain”, American Control Conference 2003, Denver, Colorado, June 2003.

　　15. Qiang Ling and Micheal D. Lemmon, “Robust performance of soft real-time networked control systems with data dropouts”, 41st IEEE Conference on Decision and Control, Las Vegas, Nevada, December 2002.

　　16. Qiang Ling, Lu Xia, Hai Lin, Micheal D. Lemmon, and Xueshi Yang, “Packet error rate analysis in Bluetooth scatternet”, Conference on Information Sciences and Systems 2002, Princeton University, March 2002.

　　17. Wenli Xu, Qiang Ling, Feng Chen, “High precision observer of an induction motor with variable structure control”, Proceedings of the World Congress on Intelligent Control and Automation (WCICA), Hefei, China, 2000。

　　18. Wenli Xu, Qiang Ling, Feng Chen ,“A robust variable structure observer for an induction motor based on Lyapunov stability law”, Asian Control Conference, Shanghai, 2000。