Fruit Fly Optimization Technique Based Regulator for LFC of Conventional Power System with the Integration of Plugin Electric Vehicles

Abstract

In this paper, a recent soft computing approach of fruit fly optimization technique (FFOT) based tilt-integral-derivative plus filter (TIDN) regulator is enforced to attain the frequency stabilization in the two-area conventional power system (TACPS). The TACPS integrates the Hydro-thermal units in each area and carried out the dynamical analysis for 10% step load disturbance (SLD) in area-1. The supremacy of the adopted FFOT is demonstrated with other approaches of moth flame optimization (MFO) and flower pollination algorithm (FPA). The TACPS is considered with the communication time delays (CTDs) as the realistic constraint to conduct the system dynamic analysis close to practical nature. Further, the TACPS is integrated with the plugin electric vehicles (PEVs) in area-1 to attain the enhancement in system dynamic performance.