A fault-tolerant control strategy to estimate and compensate the temperature sensor bias in supermarket refrigeration systems

Patrick Haffmans; Roozbeh Izadi-Zamanabadi; Hossein Ramezani

doi:10.1016/j.isatra.2023.10.033

A fault-tolerant control strategy to estimate and compensate the temperature sensor bias in supermarket refrigeration systems

Patrick Haffmans, Roozbeh Izadi-Zamanabadi, Hossein Ramezani^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

The paper proposes a data-driven fault-tolerant control (FTC) strategy to construct and accommodate the bias on ambient temperature measurements in supermarket refrigeration systems. The bias, which is caused by direct or indirect exposure of the sensor to the sun, can have a significant impact on the refrigeration system's energy consumption. Based on analysis of the real data a comprehensive model of the bias is developed and then used to generate realistic scenarios for testing the proposed FTC method. The FTC method uses a feed forward Neural Network (NN) as a black box model. The model is trained by active injection of perturbation signals during the night operations. During the Monte-Carlo tests, the strategy was implemented in a Plug & Play manner, demonstrating that substantial energy savings can be achieved during summer periods.

Translated title of the contribution	En fejltolerant strategi for estimering og kompensation af afvigelse i udendør’s temperatur sensor målinger i et supermarked kølesystem
Original language	English
Journal	ISA Transactions
Volume	144
Pages (from-to)	490-500
Number of pages	11
ISSN	0019-0578
DOIs	https://doi.org/10.1016/j.isatra.2023.10.033
Publication status	Published - Jan 2024

Bibliographical note

Publisher Copyright:
© 2023 The Authors

Keywords

Bias
Error estimation
Fault-tolerant control
Neural networks
Supermarket refrigeration systems

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title = "A fault-tolerant control strategy to estimate and compensate the temperature sensor bias in supermarket refrigeration systems",

abstract = "The paper proposes a data-driven fault-tolerant control (FTC) strategy to construct and accommodate the bias on ambient temperature measurements in supermarket refrigeration systems. The bias, which is caused by direct or indirect exposure of the sensor to the sun, can have a significant impact on the refrigeration system's energy consumption. Based on analysis of the real data a comprehensive model of the bias is developed and then used to generate realistic scenarios for testing the proposed FTC method. The FTC method uses a feed forward Neural Network (NN) as a black box model. The model is trained by active injection of perturbation signals during the night operations. During the Monte-Carlo tests, the strategy was implemented in a Plug & Play manner, demonstrating that substantial energy savings can be achieved during summer periods.",

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AB - The paper proposes a data-driven fault-tolerant control (FTC) strategy to construct and accommodate the bias on ambient temperature measurements in supermarket refrigeration systems. The bias, which is caused by direct or indirect exposure of the sensor to the sun, can have a significant impact on the refrigeration system's energy consumption. Based on analysis of the real data a comprehensive model of the bias is developed and then used to generate realistic scenarios for testing the proposed FTC method. The FTC method uses a feed forward Neural Network (NN) as a black box model. The model is trained by active injection of perturbation signals during the night operations. During the Monte-Carlo tests, the strategy was implemented in a Plug & Play manner, demonstrating that substantial energy savings can be achieved during summer periods.

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A fault-tolerant control strategy to estimate and compensate the temperature sensor bias in supermarket refrigeration systems

Abstract

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Keywords

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