Title :
Supplementary Excitation Controller design to enhance system Damping Ratio using an innovative swarm intelligence algorithm
Author :
Shivakumar, R. ; Lakshmipathi, R. ; Suresh, Y.
Author_Institution :
Sona Coll. of Technol., Salem, India
Abstract :
With the increasing Complexity of Modern Interconnected Power Systems, Low Frequency inertial Oscillations after a disturbance in a Power System are becoming one of the major problem. This paper provides a systematic approach for designing a Supplementary Excitation Controller to damp the Low frequency oscillations observed in the system using an Innovative Particle Swarm Optimization (PSO) Algorithm. In Power systems, a good measure of damping is the Damping Ratio. The proposed Controller design is formulated as a Damping ratio enhancement based Optimization problem to compute the Optimal damping controller parameters, which aid in improving system stability. To validate the effective damping action of the proposed controller, Non linear Time domain simulations has been carried out in this work. The contrasting feature of this work is the implementation of Dynamic Sensitivity Analysis. A detailed Sensitivity analysis reveals that the system dynamic performance with the proposed PSO based controller is quite robust to wide variations in system loading conditions and also variation in System model parameters compared to the conventionally designed Lead lag Controller.
Keywords :
control system synthesis; damping; oscillations; particle swarm optimisation; power system control; power system interconnection; power system stability; sensitivity analysis; time-domain analysis; dynamic sensitivity analysis; innovative PSO algorithm; innovative particle swarm optimization algorithm; innovative swarm intelligence algorithm; interconnected power systems; lead lag controller; low-frequency inertial oscillations; nonlinear time domain simulations; optimal damping controller parameters; power system disturbance; supplementary excitation controller design; system damping ratio enhancement; system stability; Algorithm design and analysis; Control systems; Damping; Frequency; Optimal control; Particle swarm optimization; Power system interconnection; Power system measurements; Power system stability; Sensitivity analysis; Damping ratio; Low frequency oscillations; Power System Stability; Sensitivity Analysis;
Conference_Titel :
Power Systems, 2009. ICPS '09. International Conference on
Conference_Location :
Kharagpur
Print_ISBN :
978-1-4244-4330-7
Electronic_ISBN :
978-1-4244-4331-4
DOI :
10.1109/ICPWS.2009.5442710
