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Fractional-Order Predictive PI Controller-Based Dead-Time Compensator for Wireless Networks

Wireless technology is increasingly significant in today’s industrial landscape. Standards like WirelessHART, ZigBee, and ISA100.11a are being widely used. However, despite their widespread use, wireless networks may sometimes be susceptible to packet loss or drops, making closed-loop systems vulner...

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Published in:	Engineering proceedings 2023-12, Vol.56 (1), p.148
Main Authors:	P. Arun Mozhi Devan, Rosdiazli Ibrahim, Madiah Omar, Kishore Bingi, Hakim Abdulrab
Format:	Article
Language:	English
Subjects:	dead-time compensation fractional calculus predictive PI process industries wireless networks
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creator	P. Arun Mozhi Devan Rosdiazli Ibrahim Madiah Omar Kishore Bingi Hakim Abdulrab
description	Wireless technology is increasingly significant in today’s industrial landscape. Standards like WirelessHART, ZigBee, and ISA100.11a are being widely used. However, despite their widespread use, wireless networks may sometimes be susceptible to packet loss or drops, making closed-loop systems vulnerable and resulting in system failure. To prevent such issues, dead-time compensation is necessary. The conventional techniques of predictive PI are commonly used for this purpose. Still, they must perform optimally for wireless networks with dead time, and set-point variations can affect network stability. To address this, a fractional calculus-based predictive PI compensator is proposed in this paper for wireless networks in process industries to improve the performance of these compensators. Industrial processes that involve wireless measurement and control actions in the pressure process model are used to evaluate the proposed compensator. The wireless network’s performance is assessed for packet loss, reduced throughput, and increased latency, and the proposed compensator outperforms traditional ones to achieve better set-point characteristics.
doi_str_mv	10.3390/ASEC2023-16581
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subjects	dead-time compensation fractional calculus predictive PI process industries wireless networks
title	Fractional-Order Predictive PI Controller-Based Dead-Time Compensator for Wireless Networks
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