Optimization Methods Applied to Power Systems

© 2019 by the authors; CC BY-NC-ND license

Cable joint; internal defect; thermal probability density; power system optimization; optimal power flow; developed grew wolf optimizer; energy internet; prosumer; energy management; consensus; demand response; day-ahead load forecasting; modular predictor; feature selection; micro-phasor measurement unit; mutual information theory; stochastic state estimation; two-point estimation method; JAYA algorithm; multi-population method (MP); chaos optimization algorithm (COA); economic load dispatch problem (ELD); optimization methods; constrained parameter estimation; extended Kalman filter; power systems; C&I particle swarm optimization; ringdown detection; optimal reactive power dispatch; loss minimization; voltage deviation; hybrid method; tabu search; particle swarm optimization; artificial lighting; simulation; calibration; radiance; GenOpt; street light points; DC optimal power flow; power transfer distribution factors; generalized generation distribution factors; unit commitment; adaptive consensus algorithm; distributed heat-electricity energy management; eight searching sub-regions; islanded microgrid; dragonfly algorithm; metaheuristic; optimal power flow; particle swarm optimization; CCHP system; energy storage; off-design performance; dynamic solving framework; battery energy storage system; micro grid; MILP; PCS efficiency; piecewise linear techniques; renewable energy sources; optimal operation; UC; demand bidding; demand response; genetic algorithm; load curtailment; optimization; hybrid renewable energy system; pumped-hydro energy storage; off-grid; optimization; HOMER software; rural electrification; sub-Saharan Africa; Cameroon; building energy management system; HVAC system; energy storage system; energy flow model; dependability; sustainability; data center; power architectures; optimization; AC/DC hybrid active distribution; hierarchical scheduling; multi-stakeholders; discrete wind driven optimization; multiobjective optimization; optimal power flow; metaheuristic; wind energy; photovoltaic; smart grid; transformer-fault diagnosis; principal component analysis; particle swarm optimization; support vector machine; wind power; integration assessment; interactive load; considerable decomposition; controllable response; SOCP relaxations; optimal power flow; current margins; affine arithmetic; interval variables; optimizing-scenarios method; power flow; wind power; active distribution system; virtual power plant; stochastic optimization; decentralized and collaborative optimization; genetic algorithm; multi-objective particle swarm optimization algorithm; artificial bee colony; IEEE Std. 80-2000; Schwarz’s equation; fuzzy algorithm; radial basis function; neural network; ETAP; distributed generations (DGs); distribution network reconfiguration; runner-root algorithm (RRA); inter-turn shorted-circuit fault (ISCF); strong track filter (STF); linear discriminant analysis (LDA); switched reluctance machine (SRM); charging/discharging; electric vehicle; energy management; genetic algorithm; intelligent scatter search; electric vehicles; heterogeneous networks; demand uncertainty; power optimization; Stackelberg game; power system unit commitment; hybrid membrane computing; cross-entropy; the genetic algorithm based P system; the biomimetic membrane computing; transient stability; two-stage feature selection; particle encoding method; fitness function; power factor compensation; non-sinusoidal circuits; geometric algebra; evolutionary algorithms; electric power contracts; electric energy costs; cost minimization; evolutionary computation; bio-inspired algorithms; congestion management; low-voltage networks; multi-objective particle swarm optimization; affinity propagation clustering; optimal congestion threshold; optimization; magnetic field mitigation; overhead; underground; passive shielding; active shielding; MV/LV substation; n/a