Electrical engineering, electrical engineering automation.

From 1988 to 1991 graduated from Dept of Power Engineering, North China Electric Power University, Power Systems and Automation (duration 3 years).
From 1995 to 1998 graduated from Dept of Automatic Control, Institute of Information and Control, Northeast University, Industrial Automation (duration 3 years).

From June 1999 to September 2001 Out bounded from Electrical engineering post-doctoral research station, Shanghai Jiaotong University.
From 1981 to 1987 worked in Electric Control Equipment Factory in Nanjing, P R China.
From Sep 1987 to Aug 1988 worked in Radio and TV office.
From April 1991 to Aug 1995 worked in Department of Electric Power Engineering, North China Electric Power University, P R China.
From Oct 2001 to now worked in Department of Electrical Engineering, Shanghai Jiaotong University, P R China.

As the project leader in the National Natural Science Foundation research project in 2014 “Low-frequency oscillation analysis and control of the interconnected power system based on the theory of differential algebraic systems and periodic solutions” (Project Grant No. 61374155).
As the project leader in the specialized research fund for the doctoral program of Higher Education (supported by the doctoral category list) in 2013 “The existence and inhibition mechanism study of oscillations periodic solution in power system with constraint manifold Hamilton structure” (Project Grant No. 20130073110030).
As the project leader in the National Natural Science Foundation research project in 2011 “Stability analysis and control study of structure preserving complex and dynamic power network based Energy” (Project Grant No. 61074042).
As the project leader in the National Natural Science Foundation research project in 2007 “Nonlinear robust adaptive control of random power networks with structure preserving models” (Project Grant No. 60674035).
As the project leader in the Postdoctoral Foundation of China in 1999 "The theory of the stability of differential and algebraic systems and chaos control in the application of electric systems”.
As the project leader in the Returned by the Scientific Research Fund in 2004 "The chaos and control study of differential and algebraic hybrid systems in electrical engineering".
Served as a major participant in National Basic Research Development Program, "China's power and economic operation of large systems of major disaster, the problem of science"(G1998020300).
As the main participants in major projects of National Natural Science Foundation of China, "power system dynamic security analysis of the WAN Modeling and Simulation Theory and Method".
As the main participants in the National Natural Science Foundation of China in 2004, "Continuation method for calculating parameters of power system multi-dimensional exploration of the local bifurcation boundary"(Project Grant No. 50307007).
As the main participants in major projects “China Southern Power Grid SSO analysis method".

Awarded the prize fund of Shanghai Jiaotong University Postdoctoral Prize (First Prize) in 2006.
Awarded the prize fund of Shanghai Jiaotong University Postdoctoral Prize (Third prize) in 2004.
Awarded the outstanding teacher prize of Shanghai Jiaotong University, Electrical - First Prize in 2006.

A lecture on " Power System Transient Analysis" for undergraduate.
A lecture on "Modern Control Theory " and “Automatic Control New Technologies of Power Systems” for Masters – Graduate.
A lecture on "Nonlinear Dynamic Analysis of Power Systems" for PhD.

[1] Jie Wang, "Differential Algebraic Control Theory in Power System". Monograph, China Electric Power Press, November 2005.
[2] Jie Wang, "Structure Preserving Power System Control Theory and Applications". Monograph, China Electric Power Press, December 2007.
[3] Jie Wang and Chen Chen, "Structure Preserving Power System Bifurcation and Stability Control". Monograph, Science Press in China, August 2009.
[4] Jie Wang and Chen Chen, "Modern Control Theory and Analysis". Compile, China Water Resources and Hydropower Press, Chinese version, January 2011.
[5] Jie Wang and Chen Chen, "Modern Control Theory Lecture". Compile, China Water Resources and Hydropower Press, English version, March 2011.
[6] Jie Wang and etc, “Periodic solution in multi -machine power systems affected by perturbation of nonlinear loads”, IEEE Transaction on Circuits and Systems-I, 2003, 50(10): 1363-1369.
[7] Jie Wang and etc, “Parametric adaptive control of multimachine power systems with nonlinear loads”, IEEE Transaction on Circuits and Systems-II, 2004, 51(2): 91-100.
[8] Jie Wang and etc, “Parametric adaptive control in nonlinear dynamical systems”, International Journal of Bifurcation and Chaos, 1998, 8(11): 2215-2223.
[9] Jie Wang and etc, “A global control of polynomial chaotic systems”, International Journal of Control, 1999, 72(10): 911-918.
[10] Jie Wang and Chen Chen, “Singular points and Lie rotated vector fields”, International Journal of Mathematics and Mathematic Science, 2000, 24(3): 179-185.
[11] Jie Wang and Chen Chen, “Homoclinic orbits and Lie rotated vector fields”, International Journal of Mathematics and Mathematic Science, 2000, 24(3): 187-192.
[12] Jie Wang and etc, “Excitation control for power systems with nonlinear loads”, Automation of Electric Power Systems, 2002, 26(8): 28-34.
[13] Jie Wang and Chen Chen, “Control of rigid rotor chaotic motion in short journal bearings”, Automation of Electric Power Systems, 2001, 25(20): 4-8+54.
[14] Jie Wang and etc, “Periodic solution in multimachine power system affected by parameter variations”, Automation of Electric Power Systems, 1996, 20(2): 27-34+64.
[15] Jie Wang and etc, “Parametric adaptive control of continuous time chaotic systems”, Acta Automatica Snica, 1993, 25(2): 269-274.
[16] Jie Wang and Chen Chen, “Nonlinear control of differential algebraic model in power systems”, Proceedings of the CSEE, 2001, 21(8): 15-23.
[17] Jie Wang and etc, “Theory and method for parametric adaptive control design of multi-machine power systems”, Proceedings of the CSEE, 2002, 22(5): 5-9.
[18] Jie Wang and Chen Chen, “Model and application for parametric adaptive control design of multi-machines power systems”, Proceedings of the CSEE, 2002, 22(7): 49-53.
[19] Jie Wang and etc, “The nonlinear control of SVC and excitation of generations in power systems with dynamic loads”, Proceedings of the CSEE, 2004, 24(6): 24-29.
[20] Yingqin Ruan and Jie Wang, “The coordinated control of SVC and excitation of generators in power systems with nonlinear loads”, International Journal of Electrical Power and Energy Systems, 2005, 27: 550-555.
[21] Lihong Gu and Jie Wang, “Nonlinear coordinated control design of excitation and STATCOM of power systems”, Electric Power Systems Research, 2007, 77: 788-796.
[22] Yigang Kong, Hao Gu, Jie Wang and Zhixin Wang, “Hydraulic variable pitch control and aerodynamic load analysis for wind turbine blades”, Advanced Materials Research, 2011, 201-203: 590-593.
[23] Xia Zhu and Jie Wang, “Improving nonlinear coordinated control of non-ideal STATCOM and excitation of salient-pole generator”, Research Journal of Applied Sciences, Engineering and Technology, 2013, 5(12): 3407-3416.
[24] Fang Shi, Jie Wang, Stabilizing control of multi-machine power systems with transmission losses based on pseudo-generalized Hamiltonian theory, IET Control Theory and Applications, 2012, 6(2): 173-181.
[25] Fang Shi, Jie Wang, Nonlinear coordinated control of HVDC and TCSC for damping inter-area oscillations of parallel AC/DC power system, International Review of Electrical Engineering-IREE, 2012, 7(6): 6190-6196.
[26] Fang Shi, Jie Wang, Hamilton energy theory based coordinated control of generator excitation and TCSC, International Review of Electrical Engineering, 2012, 7(1): 3401-3407.
[27] Xinyang Liu, Jie Wang, Gang Yao, A novel hysteresis current control strategy with fuzzy bandwidth for active power filter, Elektronika Ir Elektrotechnika, 2012, 4: 3-8.
[28] Ting Yin, Jie Wang, The positive definiteness judgment of Hessian matrix and its application in Hamilton realization of multimachine power system, IEEJ Transactions on Electrical and Electronic Engineering, 2013, 8(S1): 47-52.
[29] Hailati, Gulizhati, Jie Wang, Stability control of wide-area power system with multiple time delays, International Review of Electrical Engineering-IREE, 2012, 7(6): 6171-6181.
[30] Hailati Gulizhati, Jie Wang, Multiple time-varying delays analysis and coordinated control for power system wide area measurement, Research Journal of Applied Sciences, Engineering and Technology, 2013, 6(19): 3540-3546.
[31] Hailati, Gulizhati and Jie Wang, Wide-area time-delay coordinating control of generator excitations and SVCs based on Hamiltonian functional method. Advanced Materials Research, 2014, 852: 675-680.
[32] Jin Hao, Jie Wang and etc, “Nonlinear excitation control of multi-machine power systems with structure preserving models based on Hamiltonian system theory”, Electric Power Systems Research, 2005, 74(3): 401-408.
[33] Guanghu Xu and Jie Wang, “Feedback stabilization for AC/DC power system with nonlinear loads”, Electric Power Systems Research, 2005, 74(2): 247-255.
[34] Quanming Yue, Feipeng Lu, Weiyong Yu, and Jie Wang, “A novel algorithm to determine minimum break point set for optimum cooperation of directional protection relays in multi-loop networks”, IEEE Transactions on Power Delivery, 2006, 21(3): 1114-1119.
[35] Jin Hao, Chen Chen, Libao Shi and Jie Wang, “Nonlinear decentralized disturbance attenuation excitation control for power systems with nonlinear loads based on the Hamiltonian theory”, IEEE Transactions on Energy Conversion, 2007, 22(2): 316-324.
[36] Kang Li and Jie Wang, “Nonlinear multi-index coordinated control of generator excitation and battery energy storage system”, European Transactions on Electrical Power, 2012; 22: 758–770.
[37] Jin Hao, Jie Wang and etc, “Nonlinear excitation control of multi-machine power system with structure preserving models based on Hamiltonian system theory”, Proceedings of the CSEE, 2005, 25(8): 6-12.
[38] Guanghu Xu, Jie Wang and etc, “Design of nonlinear controller for ac/dc power system based on differential algebraic models”, Proceedings of the CSEE, 2005, 25(7): 52-57+103.
[39] Gao-yuan Liu and Jie Wang, “Robust stability controller design for AC/DC systems”, Proceedings of the CSEE, 2008, 28(4): 23-28.
[40] Mengxin Liu and Jie Wang, “Nonlinear control of multi-machine power system with structure preserving models based on Hamiltonian system energy theory”, Proceedings of the CSEE, 2007, 27(Sup): 28-34.
[41] Fang Shi, Jie Wang, “Pseudo-generalized Hamiltonian theory and its application to multi-machine power system nonlinear excitation control”, Proceedings of the CSEE, 31(19): 67-74.
[42] Shifang Li, Jie Wang, “Coordinated control study of STATCOM with algebraic constraints and salient-pole generators excitation of power systems”, Proceedings of the CSEE, 2011, 31(13): 26-32.
[43] Yingqin Ruan and Jie Wang, “Coordinated control for svc and generator excitation based on passivity and backstepping technique”, Transactions of China Electrotechnical Society, 2007, 22(6): 135-140.
[44] Guanghu Xu, Chen Chen and Jie Wang, “Control strategy of AC/DC power system with nonlinear loads”, Transactions of China Electrotechnical Society, 2007, 22(1): 114-119.
[45] Mengxin Liu, Jie Wang and etc, “Theory and development of power system frequency control”, Transactions of China Electrotechnical Society, 2007, 22(11): 135-145.
[46] Shifang Li, Jie Wang, “Excitation stabilization control design of salient-pole generators with STATCOM of power systems”, Transactions of China Electrotechnical Society, 2011, 26(7): 173-180.
[47] Yigang Kong, Jie Wang, Hao Gu and Zhixin Wang, “Dynamics modeling of wind speed based on wind shear and tower shadow for wind turbine”, Acta Energiae Solaris Sinica, 2011, 32(8): 1237-1244.
[48] Yigang Kong, Jie Wang, Hao Gu and Zhixin Wang, “Aerodynamic load analysis and power control for large wind turbine”, Acta Energiae Solaris Sinica, 2012, 33(6): 1023-1029.