Putting a next-generation grid into place must be a priority to strengthen our resilience and generate a 21st-century energy blueprint for America.
The approaches presented for the next-generation grid architecture facilitate the management of distributed generation strategies based on renewable sources, distributed storage, and demand-side load management.
Scalable management and scheduling of dynamic grid resources requires new technologies to build the next generation intelligent grid environments.
In the next generation power grid, limited-sensing, Supervisory Control and Data Acquisition (SCADA) based, centrally controlled operational architecture will be replaced with wireless connected, low-cost, multimedia sensors combined with distributed decision-making and acting systems, working in coordination with a supervisory software tool.
Secure communication: Security is a major challenge in the next generation power grid.
Finally, the proposed system is derived and its simulation results are discussed to offer the next generation of grid connected PV systems.
Due to rising awareness on environmental protection and for maintenance of clean habitable communities, current and next generation micro-grids are desired to have significant penetration of renewable and clean energy sources.
Smart grids, as the next generation of power grid, are utilizing both communication technologies and information processing to monitor and manage power grids to enhance reliability, efficiency, and sustainability of power generation.
Advocates of smart meters have long argued that they will provide people with more accurate billing information, encourage them to curb their energy use, and help enable the next generation of smart grid technologies that automatically save energy and better match supply and demand peaks and troughs.
The aim of this paper is to develop an analytical method for performance evaluation of double prioritized Multistage Interconnected Networks (MINs) with single or multilayers and backpressure operation which provide service differentiation and QoS guarantee to an end application running over next generation Internet or Grid systems.
