Cooperative Optimal Control of Hybrid Energy Systems

Introduction.- Multiagent System-Based Event-Triggered Hybrid Controls for High-Security Hybrid Energy Generation Systems.- Multi-Agent Based Hierarchical Hybrid Control for Smart Microgrid.- Two-stage optimal operation strategy of isolated power system with TSK fuzzy identification of supply-security.- MOEA/D based probabilistic PBI approach for risk-based optimal operation of hybrid energy systems with intermittent power uncertainty.- Gradient decent based multi-objective cultural differential evolution for short-term hydrothermal optimal scheduling of economic emission with integrating wind power and photovoltaic power.- Event-triggered multi-agent optimization for two-layered model of hybrid energy system with price bidding based demand response.- Consensus-based economic hierarchical control strategy for islanded MG considering communication path reconstruction.- Multi-Agent-System-Based Bi-level Bidding Strategy of Microgrid with Game Theory in the Electricity Market.- Multiagent System-Based Distributed Coordinated Control for Radial DC Microgrid Considering Transmission Time Delays.- MAS-Based Distributed Cooperative Control for DC Microgrid Through Switching Topology Communication Network With Time-Varying Delays.- Multiagent System-Based Integrated Design of Security Control and Economic Dispatch for Interconnected Microgrid Systems.- Distributed event-triggered cooperative control for frequency and voltage stability and power sharing in isolated inverter-based microgrid.- Event-triggered mechanism based distributed optimal frequency regulation of power grid.- A Virtual Complex Impedance based Droop Method for Parallel-connected Inverters in Low-voltageAC Microgrids