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Robust Distributed Fixed-Time Economic Dispatch Under Time-Varying Topology

Mayank Baranwal, Kunal Garg, Dimitra Panagou, Alfred O. Hero

2020IEEE Control Systems Letters32 citationsDOIOpen Access PDF

Abstract

The centralized power generation infrastructure that defines the North American electric grid is slowly moving to the distributed architecture due to the explosion in use of renewable generation and distributed energy resources (DERs), such as residential solar, wind turbines and battery storage. Furthermore, variable pricing policies and profusion of flexible loads entail frequent and severe changes in power outputs required from the individual generation units, requiring fast availability of power allocation. To this end, a fixed-time convergent, fully distributed economic dispatch algorithm for scheduling optimal power generation among a set of DERs is proposed. The proposed algorithm incorporates both load balance and generation capacity constraints.

Topics & Concepts

Economic dispatchDistributed generationElectricity generationComputer scienceWind powerRenewable energyGridSmart gridScheduling (production processes)Distributed power generationDistributed powerElectric power systemDemand responseDistributed computingMathematical optimizationPower BalanceVariable (mathematics)Power (physics)EngineeringSet (abstract data type)ElectricityLoad managementPower gridDistributed algorithmElectric powerElectricity pricingKey (lock)Operating costPower system simulationBase load power plantNetwork topologyReliability engineeringElectric Power System OptimizationMicrogrid Control and OptimizationSmart Grid Energy Management
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