Decreasing the Negative Impact of Time Delays on Electricity Due to Performance Improvement in the Rwanda National Grid

One of the most common power problems today is communication and control delays. This can adversely affect decision interaction in grid security management. This paper focuses on communication signal delays and how to identify and address communication system failure issues in the context of grid mo...

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Veröffentlicht in:	Electronics (Basel) 2022-10, Vol.11 (19), p.3114
Hauptverfasser:	Muyizere, Darius, Letting, Lawrence K., Munyazikwiye, Bernard B.
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Sprache:	eng
Schlagworte:	Communication Communications systems Controllers Cybersecurity Data security Electric power systems Electricity Electricity distribution Energy Fuzzy control Fuzzy logic Global positioning systems GPS Harmonic distortion Management Methods Rwanda Safety and security measures Security management Signal delay Systems stability Thyristors
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creator	Muyizere, Darius Letting, Lawrence K. Munyazikwiye, Bernard B.
description	One of the most common power problems today is communication and control delays. This can adversely affect decision interaction in grid security management. This paper focuses on communication signal delays and how to identify and address communication system failure issues in the context of grid monitoring and control, with emphasis on communication signal delay. An application to solve this problem uses a thyristor switch capacitor (TSC) and a thyristor-controlled reactor (TCR) to improve the power quality of the Rwandan National Grid (RNG) with synchronous and PV generators. It is to counteract the negative effects of time delays. To this end, the TSC and TCR architectures use two methods: the fuzzy logic controller (FLC) method and the modified predictor method (MPM). The experiment was performed using the Simulink MATLAB tool. The power quality of the system was assessed using two indicators: the voltage index and total harmonic distortion. The FLC-based performance was shown to outperform the MPM for temporary or permanent failures if the correct outcome was found. As a result, we are still unsure if TSC and TCR can continue to provide favorable results in the event of a network cyber-attack.
doi_str_mv	10.3390/electronics11193114
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subjects	Communication Communications systems Controllers Cybersecurity Data security Electric power systems Electricity Electricity distribution Energy Fuzzy control Fuzzy logic Global positioning systems GPS Harmonic distortion Management Methods Rwanda Safety and security measures Security management Signal delay Systems stability Thyristors
title	Decreasing the Negative Impact of Time Delays on Electricity Due to Performance Improvement in the Rwanda National Grid
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