Electric power systems are undergoing an unprecedented transition from fossil fuel–based
power plants to low-inertia systems that rely predominantly on power electronics and …

In this article, we propose a distributed demand-side management (DSM) approach for
smart grids taking into account uncertainty in wind power forecasting. The smart grid model …

Abstract Multi-Microgrids (MMGs) provide a highly promising approach for accommodating
diverse distributed energy resources and improving the overall system performance. This …

The decarbonization of many heavy power-consuming industries is dependent on the
integration of renewable energy sources and energy storage systems in isolated …

Optimal Volt/VAR control (VVC) in distribution networks relies on an effective coordination
between the conventional utility-owned mechanical devices and the smart residential …

Relaxed conditions are given for stability of a feedback system consisting of an
exponentially stable multi-input multi-output nonlinear plant and an integral controller …

Hybrid AC/DC microgrids (H-MGs) are a prominent solution for integrating distributed
generation and modern AC and DC loads. However, controlling these systems is …

This paper addresses the problem of voltage regulation in a power distribution grid using the
reactive power injections of grid-connected power inverters. We first discuss how purely …

Voltage and frequency control in an islanded ac microgrid (ImG) amounts to stabilizing an a
priori unknown ImG equilibrium induced by loads and changes in topology. This article puts …

We consider the economic dispatch problem for a day-ahead, peer-to-peer (P2P) electricity
market of prosumers (ie, energy consumers who can also produce electricity) in a …