Volume 13 (2025)
Volume 12 (2024)
Volume 11 (2023)
Volume 10 (2022)
Volume 9 (2021)
Volume 8 (2020)
Volume 7 (2019)
Volume 6 (2018)
Volume 5 (2017)
Volume 4 (2016)
Volume 3 (2015)
Volume 2 (2014)
Volume 1 (2013)
A Novel Hybrid Multi-Objective Evolutionary Algorithm for Optimal Power ‎Flow in Wind, PV, and PEV Systems ‎

R.K. Avvari; V. Kumar D M

Volume 11, Issue 2 , August 2023, , Pages 130-143


  In this paper, a new hybrid decomposition-based multi-objective evolutionary algorithm (MOEA) is proposed for the optimal power flow (OPF) problem including Wind, PV, and PEVs uncertainty with four conflicting objectives. The proposed multi-objective OPF (MOOPF) problem includes minimization of the total ...  Read More

Application of Automatic Control in Power System
Optimizing the Energy Consumption of an Electric Motor System Incorporates Hybrid Electric Energy Generators Using a Genetic Algorithm

А. Sadratdin; W.K. Al-Azzawi; B.M. Ali; A.N. Obeed; N.A. Hussien; A.M. Shareef; Kadhum Al-Majdi; A.S. Ibrahim

Volume 11, Special Issue , March 2023


  This study investigates a hybrid electric system that utilizes novel energy sources and is subject to variable production and uncertainty. The study proposes a multi-objective optimization methodology using Genetic Algorithm (GA) to optimize energy source consumption and utilization, accounting for variations ...  Read More

Optimal Coordination of Directional Overcurrent Relays for Microgrids Using ‎Hybrid Interval Linear Programming - Differential Evolution

P. Omidi; S. Abazari; S.M. Madani

Volume 10, Issue 2 , August 2022, , Pages 122-133


  The relay coordination problem of directional overcurrent has  been an  active research issue in distribution networks and power transmission. In general, the problem of relay coordination is the nonlinearity of the optimization problem, which increases or decreases with different network structures. ...  Read More

Probabilistic Multi-Objective Optimal Power Flow in an AC/DC Hybrid ‎Microgrid Considering Emission Cost

A. Jasemi; H. Abdi

Volume 10, Issue 1 , April 2022, , Pages 13-27


  As a basic tool in power system control and operation, the optimal power flow (OPF) problem searches the optimal operation point via minimizing different objectives and maintaining the control variables within their applicable regions. In recent years, this problem has encountered many challenges due ...  Read More

Multi-Objective Demand Side Management to Improve Economic and ‎Environmental Issues of a Smart Microgrid ‎

H. Shayeghi; M. Alilou

Volume 9, Issue 3 , December 2021, , Pages 182-192


  In the last years, microgrids have been introduced for better managing the overall power network. The two-way communication between supplier and consumer sides of a smart microgrid causes to better apply the demand side management methods to this type of system. For this reason, the multi-objective demand ...  Read More

Distribution Systems
Multi-objective Grasshopper Optimization Algorithm based Reconfiguration of Distribution Networks

M.A. Tavakoli Ghazi Jahani; P. Nazarian; A. Safari; M.R. Haghifam

Volume 7, Issue 2 , October 2019, , Pages 148-156


  Network reconfiguration is a nonlinear optimization procedure which calculates a radial structure to optimize the power losses and improve the network reliability index while meeting practical constraints. In this paper, a multi-objective framework is proposed for optimal network reconfiguration with ...  Read More

Distribution Systems
Application of Multi Objective HFAPSO algorithm for Simultaneous Placement of DG, Capacitor and Protective Device in Radial Distribution Network

Hossein Shayeghi; Masoud Alilou

Volume 3, Issue 2 , December 2015, , Pages 131-146

  In this paper, simultaneous placement of distributed generation, capacitor bank and protective devices are utilized to improve the efficiency of the distribution network. The objectives of the problem are reduction of active and reactive power losses, improvement of voltage profile and reliability indices ...  Read More

Optimal Reconfiguration and Capacitor Allocation in Radial Distribution Systems Using the Hybrid Shuffled Frog Leaping Algorithm in the Fuzzy Framework

Mostafa Sedighizadeh; Mahdi mahmoodi

Volume 3, Issue 1 , June 2015, , Pages 56-70

  In distribution systems, in order to diminish power losses and keep voltage profiles within acceptable limits, network reconfiguration and capacitor placement are commonly used. In this paper, the Hybrid Shuffled Frog Leaping Algorithm (HSFLA) is used to optimize balanced and unbalanced radial distribution ...  Read More

A Multi-Objective HBMO-Based New FC-MCR Compensator for Damping of Power System Oscillations

R. Ghanizadeh; A. Jahandideh shendi; M. Ebadian; M. Golkar; A. Ajami

Volume 1, Issue 2 , November 2013, , Pages 110-123

  In this paper, a novel compensator based on Magnetically Controlled Reactor with Fixed Capacitor banks (FC-MCR) is introduced and then power system stability in presence of this compensator is studied using an intelligent control method. The problem of robust FC-MCR-based damping controller design is ...  Read More

Active Power Filter Design by a Novel Approach of Multi-Objective Optimization

H. R. Imanijajarmi; A. Mohamed; H. Shareef

Volume 1, Issue 1 , June 2013, , Pages 54-62

  This paper presents an innovative active power filter design method to simultaneously compensate the current harmonics and reactive power of a nonlinear load. The power filter integrates a passive power filter which is a RL low-pass filter placed in series with the load, and an active power filter which ...  Read More