Demand response programs offer efficient solutions for many power system problems, such
as high generation cost, high demand's peak to average ratio, high emissions, reliability …

Industrial and commercial electricity customers have significant potential in providing
flexibility for power systems through diverse demand response (DR) programs. However, the …

With increasing environmental concerns, the electrification of transportation plays an
outstanding role in the sustainable development. In this context, plug-in electric vehicle …

This paper proposes a new framework for Smart Distribution Networks (SDN) operation by
leveraging data centers' spatial–temporal flexibility. Combining this flexibility with Battery …

Today's power systems are subject to various challenges arising from the large-scale
integration of renewable energy sources (RES), especially wind energy production. System …

This paper proposes a model for optimizing the energy flexibility of water distribution
systems (WDSs) in day-ahead power systems operation. The water distribution system …

In this article, an agent-based transactive energy (TE) trading platform to integrate energy
storage systems (ESSs) into the microgrids' energy management system is proposed. Using …

Demand response (DR) is a versatile way of providing flexibility in power systems. In order
to manage the flexibility of a large number of scattered DR resources, in the context of …

This paper presents optimal pricing design for demand response (DR) integration in the
distribution network. In particular, we study the energy scheduling problem for a load serving …

In smart grid, demand response (DR) programs can be deployed to encourage electricity
consumers towards scheduling their controllable demands to off-peak periods. Motivating …