Design of a nonlinear variable-gain fuzzy controller for FACTS devices

  title={Design of a nonlinear variable-gain fuzzy controller for FACTS devices},
  author={P. K. Dash and Stella Morris and S. Mishra},
  journal={IEEE Transactions on Control Systems Technology},
  • P. K. Dash, Stella Morris, S. Mishra
  • Published 2004
  • Mathematics, Computer Science
  • IEEE Transactions on Control Systems Technology
  • The paper presents the design of a nonlinear variable-gain fuzzy controller for a flexible ac transmission systems (FACTS) device like the unified power flow controller (UPFC) to enhance the transient stability performance of power systems. The fuzzy controller uses a numerical consequent rule base of the Takagi-Sugeno type, which can be either linear- or nonlinear-producing control-gain variation over a very wide range. This type of fuzzy control is expected to be more robust and effective in… CONTINUE READING
    Power System Transient Stability Improvement Using Fuzzy Controlled STATCOM
    • 7
    • Open Access


    Publications referenced by this paper.
    Improving power system dynamics by series-connected FACTS devices
    • 299
    A unified model for the analysis of FACTS devices in damping power system oscillations. III. Unified power flow controller
    • 206
    • Open Access
    Control design and simulation of unified power flow controller
    • 170
    • Open Access
    A radial basis function neural network controller for UPFC
    • 106
    • Open Access
    Constructing nonlinear variable gain controllers via the Takagi-Sugeno fuzzy control
    • H. Ying
    • Computer Science, Mathematics
    • 1998
    • 110
    • Open Access
    Optimization and Coordination of Damping Controls for Improving System Dynamic Performance
    • 188
    Allocation of the UPFC to enhance the damping of power oscillations
    • 15
    Power System Stability and Control
    • 10,846
    • Open Access