Sliding mode control (SMC) has been a very popular control technology due to its simplicity
and robustness against uncertainties and disturbances since its inception more than 60 …

Sliding mode control (SMC) has been studied since the 1950s and widely used in practical
applications due to its insensitivity to matched disturbances. The aim of this paper is to …

This paper presents the automatic load frequency control (ALFC) of two-area multisource
hybrid power system (HPS). The interconnected HPS model consists of conventional and …

This paper presents a novel sliding-mode load frequency control (LFC) strategy for two-area
thermal interconnected power system. Backstep** technique is utilized to design the …

This paper presents a blockchain-based decentralized frequency control of an islanded
microgrid (MG) using a novel federated learning fractional order recurrent neural network …

In this paper, a Sliding mode controller design method for frequency regulation in an
interconnected power system is presented. A sliding surface having four parameters has …

Unpredictable high renewable shares in a standalone microgrid (MG) system with stochastic
load demands introduces an unavoidable mismatch among loads and sources. This …

This paper proposes a new model to mimics accurately the real dynamic and steady-state
power generation profiles of a photovoltaic (PV) power plant connected to the power system …

This paper proposes an adaptive non-singular fast terminal sliding mode control (FTSMC)
with integral surface for the finite time tracking control of nonlinear systems with external …

In a sustainable city with a large amount of renewable energy, the difficulty inherent in the
coordination of the load frequency control strategies of grid units and area units lead to …