Title :
Robust controller design for small-signal stability enhancement of power systems
Author_Institution :
Dept. of Electr. Eng., Cape Town Univ.
Abstract :
The paper proposes a technique for designing a robust power system stabilizer that combines Hinfin optimal control with the bilinear transformation. The bilinear transformation is used to prevent the pole-zero cancellation phenomenon inherent in the Hinfin mixed sensitivity design and to assign dominant poles at desired locations in the s-plane. The technique is applied to design a power system stabilizer for a single machine connected to an infinite bus. The proposed controller is compared with both a conventional lead-lag controller and a controller design based on an evolutionary algorithm called PBIL (population based incremental learning). Frequency and time domain simulations are presented to demonstrate the effectiveness of the proposed design approach
Keywords :
Hinfin control; pole assignment; power system stability; robust control; H-infinity control; bilinear transformation; evolutionary algorithm; infinite bus; lead-lag controller; optimal control; pole assignment; pole-zero cancellation; population based incremental learning; power system stabilizer; robust controller design; small-signal stability enhancement; Algorithm design and analysis; Control systems; Evolutionary computation; Optimal control; Power system control; Power system simulation; Power system stability; Power systems; Robust control; Robust stability;
Conference_Titel :
AFRICON, 2004. 7th AFRICON Conference in Africa
Conference_Location :
Gaborone
Print_ISBN :
0-7803-8605-1
DOI :
10.1109/AFRICON.2004.1406755
