Model-based feedback control of filament geometry in extrusion-based additive manufacturing

Carlos J.G. Rojas; Christian Portilla Caicedo; Leyla Özkan

doi:10.1016/j.ifacol.2024.08.370

Model-based feedback control of filament geometry in extrusion-based additive manufacturing

Carlos J.G. Rojas, Christian Portilla Caicedo, Leyla Özkan

Onderzoeksoutput: Bijdrage aan tijdschrift › Congresartikel › peer review

1 Citaat (Scopus)

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Control of extrusion-based printing is fundamental to improving the traditional open-loop operation of commercial machines. However, the literature on feedback control based on nozzle motion is still limited in comparison with the developments for extrusion dynamics. In this work, we propose a model-based control strategy where the effects of the nozzle speed on the filament width are described by a first-order model, and the model uncertainty is used for robust synthesis. The feedback employs the internal model controller (IMC) to get an approximate inversion of the dynamics and the IMC filter is tuned based on robust performance criteria. The controller was experimentally tested and provided satisfactory results, especially when the parameters were refined depending on the speed regime.

Originele taal-2	Engels
Pagina's (van-tot)	403-408
Aantal pagina's	6
Tijdschrift	IFAC-PapersOnLine
Volume	58
Nummer van het tijdschrift	14
DOI's	https://doi.org/10.1016/j.ifacol.2024.08.370
Status	Gepubliceerd - 1 jul. 2024

Financiering

This work has been developed as part of the PRINTYOURFOOD project, which is financially supported by the NWO grant number 18763

Financiers	Financiernummer
Nederlandse Organisatie voor Wetenschappelijk Onderzoek	18763

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10.1016/j.ifacol.2024.08.370

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abstract = "Control of extrusion-based printing is fundamental to improving the traditional open-loop operation of commercial machines. However, the literature on feedback control based on nozzle motion is still limited in comparison with the developments for extrusion dynamics. In this work, we propose a model-based control strategy where the effects of the nozzle speed on the filament width are described by a first-order model, and the model uncertainty is used for robust synthesis. The feedback employs the internal model controller (IMC) to get an approximate inversion of the dynamics and the IMC filter is tuned based on robust performance criteria. The controller was experimentally tested and provided satisfactory results, especially when the parameters were refined depending on the speed regime.",

keywords = "Additive manufacturing, Advanced process control, Process control applications, Robust control applications, Time delay systems",

author = "Rojas, {Carlos J.G.} and {Portilla Caicedo}, Christian and Leyla {\"O}zkan",

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N2 - Control of extrusion-based printing is fundamental to improving the traditional open-loop operation of commercial machines. However, the literature on feedback control based on nozzle motion is still limited in comparison with the developments for extrusion dynamics. In this work, we propose a model-based control strategy where the effects of the nozzle speed on the filament width are described by a first-order model, and the model uncertainty is used for robust synthesis. The feedback employs the internal model controller (IMC) to get an approximate inversion of the dynamics and the IMC filter is tuned based on robust performance criteria. The controller was experimentally tested and provided satisfactory results, especially when the parameters were refined depending on the speed regime.

AB - Control of extrusion-based printing is fundamental to improving the traditional open-loop operation of commercial machines. However, the literature on feedback control based on nozzle motion is still limited in comparison with the developments for extrusion dynamics. In this work, we propose a model-based control strategy where the effects of the nozzle speed on the filament width are described by a first-order model, and the model uncertainty is used for robust synthesis. The feedback employs the internal model controller (IMC) to get an approximate inversion of the dynamics and the IMC filter is tuned based on robust performance criteria. The controller was experimentally tested and provided satisfactory results, especially when the parameters were refined depending on the speed regime.

KW - Additive manufacturing

KW - Advanced process control

KW - Process control applications

KW - Robust control applications

KW - Time delay systems

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Model-based feedback control of filament geometry in extrusion-based additive manufacturing

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