Multi-objective attuned design of damping controllers using frequency-based functions in smart grids

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Increasing expansion of power systems is accompanied by innovations in smart grid solutions to maintain system stability. This paper formulates the dual-dimensional supplementary damping controller (SDC) and accelerating power system stabilizer (PSS2B) design as a multi-objective optimization procedure including both performance and robustness criteria. In wide-area operation, PSS2B is used for damping low-frequency swings and maintaining the robustness of controller in a wide range of swing frequencies. A dual-dimensional controller model is employed for the SDC. The robustness requirement is procured by using the idea of pseudospectra to handle the changes of power system parameters and the time delay introduced by wide-area damping controller (WADC). The multi-objective optimization problem is solved using an improved non-dominated sorting genetic algorithm-II (INSGA-II) based on fuzzy decision making (FDM) method. Different simulations are carried out on a 4-machine 2-area test system in order to validate the effectiveness and robustness of the designed controllers.

论文关键词:Smart grid,Supplementary damping controller,Wide-area damping controller,Improved non-dominated sorting genetic algorithm-II,Fuzzy decision making

论文评审过程:Received 12 February 2014, Revised 12 December 2014, Accepted 12 December 2014, Available online 22 December 2014.

论文官网地址:https://doi.org/10.1016/j.knosys.2014.12.015