Modern power and energy systems have been transforming from a vertical structure towards a distributed and deregulated structure with complex cyber-energy resources integrated. This is featured by widespread deployment of distributed renewable energy sources, electric vehicles, and controllable loads. In the last a few years, the pervasive Industrial Internet-of-Things (IIoTs) technology has gained huge success in power and energy systems and other coupled physical systems, such as transportation systems, built environments and weather systems. IIoTs provide unprecedented opportunity for different stakeholders to finely monitor the real-time states of energy systems and systematically make planning and operation decisions on the distributed cyber-energy resources and enhance the sustainability of urban systems.
This Research Topic solicits the latest and original contributions on a wide range of planning and operation techniques for modern energy systems with deep penetration of IIoTs, including cutting-edge modelling methodologies of advanced metering infrastructure driven demand-side management applications, power systems with phasor measurement units (PMUs), optimal placements of distributed energy resources and IIoT devices, vehicle-to-grid/home integration, and cyber-physical security of modern energy systems.
The Research Topic invites submissions on all topics of planning and operation theories, algorithms and applications for energy systems with penetration for pervasive IIoTs, including but not limited to:
• Joint planning of distributed energy resources and IIoT devices
• Building IoT supported building/home energy management systems
• Planning and energy management of energy storage systems
• IIoT supported security and stability analysis of smart grids
• Vehicle-to-grid, vehicle-to-community, and vehicle-to-home integrations
• Monitoring and situational awareness of smart grids with wide-area PMUs
• Modelling and defense of cyber-physical attacks targeting modern energy systems with IIoTs
• Energy management of Internet data centers in smart grids
• Artificial intelligence and its applications in energy systems with IIoTs
• Industry 4.0 applications.
Modern power and energy systems have been transforming from a vertical structure towards a distributed and deregulated structure with complex cyber-energy resources integrated. This is featured by widespread deployment of distributed renewable energy sources, electric vehicles, and controllable loads. In the last a few years, the pervasive Industrial Internet-of-Things (IIoTs) technology has gained huge success in power and energy systems and other coupled physical systems, such as transportation systems, built environments and weather systems. IIoTs provide unprecedented opportunity for different stakeholders to finely monitor the real-time states of energy systems and systematically make planning and operation decisions on the distributed cyber-energy resources and enhance the sustainability of urban systems.
This Research Topic solicits the latest and original contributions on a wide range of planning and operation techniques for modern energy systems with deep penetration of IIoTs, including cutting-edge modelling methodologies of advanced metering infrastructure driven demand-side management applications, power systems with phasor measurement units (PMUs), optimal placements of distributed energy resources and IIoT devices, vehicle-to-grid/home integration, and cyber-physical security of modern energy systems.
The Research Topic invites submissions on all topics of planning and operation theories, algorithms and applications for energy systems with penetration for pervasive IIoTs, including but not limited to:
• Joint planning of distributed energy resources and IIoT devices
• Building IoT supported building/home energy management systems
• Planning and energy management of energy storage systems
• IIoT supported security and stability analysis of smart grids
• Vehicle-to-grid, vehicle-to-community, and vehicle-to-home integrations
• Monitoring and situational awareness of smart grids with wide-area PMUs
• Modelling and defense of cyber-physical attacks targeting modern energy systems with IIoTs
• Energy management of Internet data centers in smart grids
• Artificial intelligence and its applications in energy systems with IIoTs
• Industry 4.0 applications.