Hybrid Control of a Variable-Speed Peristaltic PUMP

Michiel Beijen; Thijs Tijman op Smeijers; Gijs Boerrigter; Sebastiaan Van Den Eijnden

doi:10.23919/ACC60939.2024.10644974

Hybrid Control of a Variable-Speed Peristaltic PUMP

Michiel Beijen, Thijs Tijman op Smeijers, Gijs Boerrigter, Sebastiaan Van Den Eijnden

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

Peristaltic pumps are used for transporting liquids within disposable tubes, and are commonly found in medical devices. The peristaltic pump principle, however, introduces disturbances, thereby distorting the desired rotational speed of the pump. Proportional plus double integral (PI2) control is commonly used to reject these disturbances, but at the cost of deteriorated transient response and robustness margins. To balance these trade-offs in a more desirable manner, in this paper we propose a hybrid PI2 control strategy that allows for reducing the steady-state error while maintaining robustness margins similar to linear PI2 control. Experiments on a representative setup demonstrate up to 45% improvement in disturbance rejection capabilities.

Original language	English
Title of host publication	2024 American Control Conference, ACC 2024
Publisher	IEEE
Pages	4296-4301
Number of pages	6
ISBN (Electronic)	9798350382655
DOIs	https://doi.org/10.23919/ACC60939.2024.10644974
Publication status	Published - 5 Sept 2024
Event	American Control Conference, ACC 2024 - Toronto, Canada Duration: 10 Jul 2024 → 12 Jul 2024

Publication series

Name	Proceedings of the American Control Conference
ISSN (Print)	0743-1619

Conference

Conference	American Control Conference, ACC 2024
Abbreviated title	ACC 2024
Country/Territory	Canada
City	Toronto
Period	10/07/24 → 12/07/24

Keywords

n/a OA procedure

Access to Document

10.23919/ACC60939.2024.10644974

Cite this

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abstract = "Peristaltic pumps are used for transporting liquids within disposable tubes, and are commonly found in medical devices. The peristaltic pump principle, however, introduces disturbances, thereby distorting the desired rotational speed of the pump. Proportional plus double integral (PI2) control is commonly used to reject these disturbances, but at the cost of deteriorated transient response and robustness margins. To balance these trade-offs in a more desirable manner, in this paper we propose a hybrid PI2 control strategy that allows for reducing the steady-state error while maintaining robustness margins similar to linear PI2 control. Experiments on a representative setup demonstrate up to 45% improvement in disturbance rejection capabilities.",

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N2 - Peristaltic pumps are used for transporting liquids within disposable tubes, and are commonly found in medical devices. The peristaltic pump principle, however, introduces disturbances, thereby distorting the desired rotational speed of the pump. Proportional plus double integral (PI2) control is commonly used to reject these disturbances, but at the cost of deteriorated transient response and robustness margins. To balance these trade-offs in a more desirable manner, in this paper we propose a hybrid PI2 control strategy that allows for reducing the steady-state error while maintaining robustness margins similar to linear PI2 control. Experiments on a representative setup demonstrate up to 45% improvement in disturbance rejection capabilities.

AB - Peristaltic pumps are used for transporting liquids within disposable tubes, and are commonly found in medical devices. The peristaltic pump principle, however, introduces disturbances, thereby distorting the desired rotational speed of the pump. Proportional plus double integral (PI2) control is commonly used to reject these disturbances, but at the cost of deteriorated transient response and robustness margins. To balance these trade-offs in a more desirable manner, in this paper we propose a hybrid PI2 control strategy that allows for reducing the steady-state error while maintaining robustness margins similar to linear PI2 control. Experiments on a representative setup demonstrate up to 45% improvement in disturbance rejection capabilities.

KW - n/a OA procedure

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T2 - American Control Conference, ACC 2024

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ER -

Hybrid Control of a Variable-Speed Peristaltic PUMP

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