Paper Info
Title
Comparative study between HDP and PSS on DFIG damping control
Abstract
In this paper, heuristic dynamic programming (HDP) based supplementary control is compared with the power system stabilizer (PSS) based supplementary control for doubly-fed induction generators (DFIG), namely, the active power damping control. The traditional design of PSS control on DFIG damping is based on eigenvalue analysis. For such analysis, disturbances are considered sufficiently small to permit the nonlinear model representing the power system to be linearized and expressed in state space form. When the disturbance or the system configuration changes, this kind of design is easy to become entrapped in local minimal and the robust ability of the controller is not guaranteed. On the other side, the HDP based supplementary damping controller analyzed in this paper is “model-free” with on-line learning capability: once a system state is observed, an action will be subsequently produced based on the performance index function. The obtained results by such a HDP supplementary controller on a benchmark power system are compared with the traditional PSS controller, demonstrating the improved control performance and robustness.
Year
DOI
Venue
2013
10.1109/CIASG.2013.6611499
CIASG
Keywords
Field
DocType
nonlinear model,benchmark power system,state-space methods,power control,power system stability,supplementary damping controller,pss control,dfig damping control,asynchronous generators,doubly-fed induction generators,system configuration,eigenvalue analysis,system state,heuristic dynamic programming,hdp,state space form,active power damping control,online learning capability,supplementary control,power system stabilizer,dynamic programming,eigenvalues and eigenfunctions,damping,performance index function,oscillators
Dynamic programming,Control theory,Control theory,Power control,State-space representation,Electric power system,AC power,Robustness (computer science),Control engineering,Engineering,Induction generator
Conference
Volume
Issue
ISSN
null
null
2326-7682
Citations 
PageRank 
References 
10
0.68
7
Authors
3
Name
Order
Citations
PageRank
Yufei Tang120322.83
Haibo He23653213.96
Jinyu Wen323326.09