The International  Journal of Smart Electrical Engineering (IJSEE)


1. Opportunities and Obstacles in Utilizing the Renewable Electric Power Resources in Iran

Hasan Mobini; Mohammad Reza Haghifam

Volume 10, Issue 01 , Winter 2021, Pages 1-6

  Energy supply has currently become one of the most strategic and critical issues of human societies; as many political, economic and social challenges have been directly or indirectly related to the energy crisis over the past few decades. Given that the energy sector has the greatest impact on increasing ...  Read More

2. Optimal Location of Surge Arresters in Distribution Network Considering Reliability and Technical and Economic Factors to Reduce Costs using ICA Algorithm

Mehrdad Ahmadi Kamarposhti; AbasAli Hejri

Volume 10, Issue 01 , Winter 2021, Pages 7-16

  Due to increased energy consumption in cities and industrial areas, many technical and economic issues arise for designers and beneficiaries of the system. Currently, unfortunately, in choosing the right place for installing arrester, the traditional methods are used and without considering the economic ...  Read More

3. Depression Diagnosis Based on KNN Algorithm and EEG Signals

Nika Forouzandeh; Maryam Saeedi; Keivan Maghooli

Volume 10, Issue 01 , Winter 2021, Pages 17-22

  This work aims to diagnose depression and isolate healthy people from depressed patients based on EEG brain signals via the k-nearest neighbor algorithm (KNN) and using 10-fold cross-validation. Five regular frequency bands (Gamma, Beta, Alpha, Theta, and Delta) were utilized from the signals. Band power ...  Read More

4. The Effect of Demand-Response Program and Distributed Generation Resources on Optimal Establishment of Electric Vehicle Charging/Discharging Stations Using a Triple Optimization Algorithm

Monireh Ahmadi; Seyed Hossein Hosseini; Murteza Farsadi

Volume 10, Issue 01 , Winter 2021, Pages 23-31

  This study investigated the effect of distributed generation resources and demand-response program on the placement of charging/discharging stations and optimal exploitation programming of electric vehicles in a distribution network. Effective factors in the sitting of stations and optimal charge/discharge ...  Read More

5. A Smart Four-Input Minority Gate Based on QCA Technology

Keivan Navi; Samaneh-Sadat Hashemipour; Reza Sabbaghi Nadooshan

Volume 10, Issue 01 , Winter 2021, Pages 33-37

  Quantum-dot cellular automata (QCA) is a new and very attractive technology for implementing logic gates and digital circuits at the nanoscale. This technology has very attractive and amazing features such as: low area, high processing speed and low power consumption. Over time, with the advancement ...  Read More

6. Modeling of Maximum Solar Power Tracking by Genetic Algorithm Method

Mojtaba Jamiati

Volume 10, Issue 01 , Winter 2021, Pages 39-44

  This paper, firstly presents a model of solar cell is built using MATLAB SIMULINK and P-V, I-V & P-I characteristics are studied for various values of irradiance & a constant temperature, And then used of Genetic Algorithm (GA) for maximum power point tracking (MPPT) of Photovoltaic (PV) system ...  Read More

1. Maximum Power Point Tracking of Wind Energy Conversion System using Fuzzy- Cuckoo Optimization Algorithm Strategy

Mohammad Sarvi; Mohammad Parpaei

Volume 02, Issue 4 , Autumn 2013, , Pages 195-200

  Nowadays the position of the renewable energy is so important because of the environment pollution and the limitation of fossil fuels in the world. Energy can be generated more and more by the renewable sources, but the fossil fuels are non-renewable. One of the most important renewable sources is the ...  Read More

2. An Improved MPPT Method of Wind Turbine Based on HCS Method by Using Fuzzy Logic System

Shahram Javadi; Mohammad Hossein Hazin

Volume 03, Issue 01 , Winter 2014, , Pages 29-35

  In this paper presents a Maximum Power Point Tracking (MPPT) technique based on the Hill Climbing Search (HCS) method and fuzzy logic system for Wind Turbines (WTs) including of Permanent Magnet Synchronous Generator (PMSG) as generator. In the conventional HCS method the step size is constant, therefor ...  Read More

3. Efficient Parameters Selection for CNTFET Modelling Using Artificial Neural Networks

Roya Abdollahzadeh Badelbo; Fardad Farokhi; Alireza Kashaniniya

Volume 02, Issue 4 , Autumn 2013, , Pages 217-222

  In this article different types of artificial neural networks (ANN) were used for CNTFET (carbon nanotube transistors) simulation. CNTFET is one of the most likely alternatives to silicon transistors due to its excellent electronic properties. In determining the accurate output drain current of CNTFET, ...  Read More

4. Analysis and Comparison of Load Flow Methods for Distribution Networks Considering Distributed Generation

M Sedghi; M Aliakbar-Golkar

Volume 01, Issue 01 , Winter 2012, , Pages 27-32

  Conventional passive distribution networks are changing to modern active distribution networks which are not radial. Conventional load flow methods should be modified for new distribution networks analysis. In modern distribution networks distributed generation (DG) units are embedded with conventional ...  Read More

5. A Comparison between SVC and STATCOM in Flicker Mitigation of Electric Arc Furnace using Practical Recorded Data

Haidar Samet; Mohammad Amin Jarrahi

Volume 03, Issue 04 , Autumn 2014, , Pages 209-214

  Electric arc furnace (EAF) is one of the largest loads in electric power systems. It is highly time varying and nonlinear. Its reactive power variations cause voltage fluctuations in nearby system which is known as flicker. On the other hand the nonlinear voltage-current characteristic causes strong ...  Read More

1. Energy Management in Photovoltaic Based Micro-Grid Systems

mojtaba jamiati

Articles in Press, Accepted Manuscript, Available Online from 21 May 2021

  Abstract— Using DC micro-grid to connect more efficiently with DC output has increased. The sources are photovoltaic and energy storage systems. The conversion losses of the sources for supplying the loads are reduced compared to the AC micro-grid. This method aims at combining the above methods ...  Read More

2. Design and Implementation of Tile-shaped Fault-tolerant XOR/XNOR Gates Based on Intercellular Interactions

Fatemeh Kiayi; Behnaz Gharekhanlou; Alireza Kashaninya

Articles in Press, Accepted Manuscript, Available Online from 21 May 2021

  Over the years, the design and implementation of fault-tolerant circuits have been one of the main concerns of the designers of electronic devices. Quantum Dot Cellular Automata (QCA) is a low-power, compact technology that is prone to various defects due to its small size. We can categorize these defects ...  Read More

3. Presenting a Practical Way to Preprocess the Raw Data of Smart Meters and Calculate the Load Duration Curve

Hassan Majidi; M.-R Haghifam; Mahdi Emadaleslami

Articles in Press, Accepted Manuscript, Available Online from 12 July 2021

  In recent years, due to developments in the electricity industry, the use of smart meters has increased worldwide. Smart meters allow the collection of large amounts of microdata on power consumption. The data collected by smart meters can be used in various cases. Since the load duration curve is of ...  Read More

4. A Machine Learning Approach to Detect Energy Fraud in Smart Distribution Network

Mahdi Emadaleslami

Articles in Press, Accepted Manuscript, Available Online from 12 July 2021

  Electricity utility have long sought to identify and reduce energy fraud as a significant part of non-technical losses (NTL). Generally, to determine customer’s honesty in consumption on-site inspection is vital. Since, inspecting all customers is expensive, utilities look for new ways to reduce ...  Read More