Reducing the risk of cascading failure in active distribution networks using adaptive critic design Article

Dutta, Oindrilla, Mohamed, Ahmed. (2020). Reducing the risk of cascading failure in active distribution networks using adaptive critic design . IET GENERATION TRANSMISSION & DISTRIBUTION, 14(13), 2592-2601. 10.1049/iet-gtd.2020.0045

Open Access International Collaboration

keywords

  • ACD algorithm
  • ADN
  • BESS
  • CONTROL STRATEGY
  • DMS
  • DS1104
  • DSpace
  • Engineering
  • Engineering, Electrical & Electronic
  • GENERATION
  • MANAGEMENT
  • OP5600
  • OPAL-RT
  • OPTIMAL POWER-FLOW
  • RELIABILITY
  • SYSTEMS
  • Science & Technology
  • Technology
  • active distribution networks
  • adaptive critic design
  • battery energy storage systems
  • battery storage plants
  • bus voltages
  • cascading failure risk reduction
  • critical loading conditions
  • distributed power generation
  • distribution management system
  • energy pricing
  • learning (artificial intelligence)
  • microgrid
  • minimisation
  • modified IEEE 5-bus system
  • photovoltaic power systems
  • photovoltaic systems
  • power distribution economics
  • power electronic components
  • power electronics
  • power generation dispatch
  • power generation economics
  • power system management
  • power system simulation
  • pricing
  • reinforcement learning based technique
  • simulation-in-the-loop testbed
  • thermal loading
  • thermal overloading

Digital Object Identifier (DOI)

publisher

  • INST ENGINEERING TECHNOLOGY-IET

start page

  • 2592

end page

  • 2601

volume

  • 14

issue

  • 13