JESIT is the official open access journal of the Electronics Research Institute (ERI). It aims to be the global voice and publication resource for universities, research institutions and companies. Serving the community, JESIT will help spread the word about planned workshops as well as industry conferences for upcoming and experienced professionals. Publications of original research, literature reviews, and editorials represent the latest approaches in the fields of electronics, automation and computer science.
Journal of Electrical Systems and Information Technology
Description
Identifiers
e-ISSN | 2314-7172 |
Publisher
Springer Berlin Heidelberg
Additional information
Data set: Springer
Articles
Journal of Electrical Systems and Information Technology > 2019 > 6 > 1 > 1-11
Multicarrier technique orthogonal frequency division multiplexing (OFDM) modulation is a solution to provide high-speed and secured data transmission requirement in 4G technologies. Peak-to-average power ratio (PAPR) is one major drawback in OFDM system. Researches described several PAPR reduction techniques, notably peak windowing and clipping. The aim of this paper is to use these techniques to...
Journal of Electrical Systems and Information Technology > 2019 > 6 > 1 > 1-18
This paper presents a combination of fuzzy and genetic algorithm (GA)-based methodology for simultaneous optimum allocation and sizing of distributed generations (DGs) and shunt capacitors (SCs) together in distribution systems. The objectives of reduction of active power and reactive power supply, reduction of real power loss and improvement of branch current capacity, voltage profile and voltage...
Journal of Electrical Systems and Information Technology > 2019 > 6 > 1 > 1-18
This paper introduces the steady-state and dynamic behaviors of a proposed connection for the two-winding single-phase self-excited induction generator (TWSPSEIG) equipped with an excitation capacitor and a compensation capacitor for operation at constant load voltage and frequency irrespective of the no-load or different load conditions. The performance equations at steady-state conditions are attained...