Title :
Stabilization of time-varying Hamiltonian systems
Author :
Guo, Yuqian ; Cheng, Daizhan
Author_Institution :
Inst. of Syst. Sci., Acad. Sinica, Beijing
Abstract :
This paper investigates the stabilization problem of time-varying port-controlled Hamiltonian (PCH) systems through energy-shaping. First, the closed-loop form of a time-varying PCH system (with certain feedback) is embedded into an extended system. Then by restricting the extended system to its invariant Casimir manifold, the energy function (Hamiltonian) of the original PCH system could be shaped as a candidate of Lyapunov function. Then the stabilization problem is considered by using the shaped Hamiltonian function. When the system has unknown parameters, the adaptive stabilization is considered, and the above stabilization result is used to construct an adaptive stabilizer. Finally, the method developed is used to power systems with periodic disturbances
Keywords :
Lyapunov methods; closed loop systems; stability; time-varying systems; Casimir function; Lyapunov function; energy shaping; time-varying port-controlled Hamiltonian systems stabilization; Control systems; Feedback; Lyapunov method; Power system control; Power system interconnection; Power systems; State-space methods; Symmetric matrices; Tensile stress; Time varying systems; Adaptive stabilizer; Casimir function; Hamiltonian system stabilization; energy-shaping;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2006.879979
