Modeling and application of wind-solar energy hybrid power generation system based on multi-agent technology

“…Rule (4): if the current of the hybrid energy storage system (I HESS ) is less than the current threshold ∆I 2 , this rule applies. Under this condition, the reference current of VRB and SCB is shown in the formula in Equation (15).…”

“…A fuzzy logic control algorithm was applied to achieve a reasonable allocation of power and improve the utilization of a photovoltaic power system [13]. The energy management strategy based on a multiagent system could make energy distribution become much more intelligent [14][15][16]. Particle swarm optimization (PSO) had the advantages of easy hardware implementation, strong global search capability, fast convergence speed, and less computational complexity, and therefore, it has become a research hotspot in the optimization field [17][18][19].…”

Energy Management Using a Rule-Based Control Strategy of Marine Current Power System with Energy Storage System

“…Rule (4): if the current of the hybrid energy storage system (I HESS ) is less than the current threshold ∆I 2 , this rule applies. Under this condition, the reference current of VRB and SCB is shown in the formula in Equation (15).…”

“…A fuzzy logic control algorithm was applied to achieve a reasonable allocation of power and improve the utilization of a photovoltaic power system [13]. The energy management strategy based on a multiagent system could make energy distribution become much more intelligent [14][15][16]. Particle swarm optimization (PSO) had the advantages of easy hardware implementation, strong global search capability, fast convergence speed, and less computational complexity, and therefore, it has become a research hotspot in the optimization field [17][18][19].…”

Energy Management Using a Rule-Based Control Strategy of Marine Current Power System with Energy Storage System

“…The term 'agent' is characterized by the meaning of autonomy. [34] identified agent technology consisting of networks within a microgrid system of multi-agent modules or components which together form MASs. These networks of agents are used in the control of wind turbines and solar arrays.…”

Development of an Energy Management System Control Algorithm for a Remote Community Microgrid System

“…Multiagent systems are preferred over the centralized approaches because of their ability of decentralized data handling and processing and decision making, which makes them a much faster solution. MAS has recently been much researched for solving several power system problems such as power system restoration and monitoring [12][13][14][15][16][17], distributed energy resource (DER) management [18,19], and fault diagnosis [20] problems. Though nonhierarchical decentralized MAS approach in [12] for transmission lines and [13] avoids single point of failure, it does not guarantee an accurate solution as agents do not have complete information of the system states.…”

“…A multiagent system for fault isolation in microgrid is discussed in [15] without the restoration operation, whereas [16] details an agent-based restorative approach for microgrid assuming fault isolation has been completed. The authors in [18] propose a multiagent system for power system facility maintenance mainly detailing the agent requirements. The proposed approach has agents in a layered architecture that have complete information of the system and decision making capabilities within the layer or in communication with one higher layer agents thereby reducing the communication and time required for optimal decision making.…”

Automatic fault isolation and restoration of distribution system using JADE based Multi-Agents