Combined Time-Domain Optimization Design for Task-Flexible and High Performance ILC

Kentaro Tsurumoto; Wataru Ohnishi; Takafumi Koseki; Max van Haren; Tom Oomen

doi:10.23919/ECC64448.2024.10590964

Combined Time-Domain Optimization Design for Task-Flexible and High Performance ILC

Kentaro Tsurumoto
, Wataru Ohnishi
, Takafumi Koseki
, Max van Haren
, Tom Oomen

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

1 Citation (Scopus)

21 Downloads (Pure)

Abstract

Iterative learning control (ILC) yields substantial performance improvement for repetitive motion tasks. While task-flexibility for non-repetitive motion tasks can be achieved with the use of basis functions, this typically comes with a trade-off in performance or design parameters. This study aims to achieve both task-flexibility and high performance with a single time-domain optimization framework. By defining a criterion combining the cost for performance and task-flexibility, an optimal feedforward with task-flexibility of basis function ILC and high performance surpassing standard norm-optimal ILC is obtained. Numerical validation on a two-mass motion system confirm the capabilities of the developed framework.

Original language	English
Title of host publication	2024 European Control Conference, ECC 2024
Publisher	Institute of Electrical and Electronics Engineers
Pages	1190-1195
Number of pages	6
ISBN (Electronic)	978-3-9071-4410-7
DOIs	https://doi.org/10.23919/ECC64448.2024.10590964
Publication status	Published - 24 Jul 2024
Event	22nd European Control Conference 2024, ECC 2024 - KTH Royal Institute of Technology, Stockholm, Sweden Duration: 25 Jun 2024 → 28 Jun 2024 Conference number: 22 https://ecc24.euca-ecc.org/

Conference

Conference	22nd European Control Conference 2024, ECC 2024
Abbreviated title	ECC 2024
Country/Territory	Sweden
City	Stockholm
Period	25/06/24 → 28/06/24
Internet address	https://ecc24.euca-ecc.org/

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10.23919/ECC64448.2024.10590964

pdfFinal published version, 834 KBLicence: TAVERNE

Cite this

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title = "Combined Time-Domain Optimization Design for Task-Flexible and High Performance ILC",

abstract = "Iterative learning control (ILC) yields substantial performance improvement for repetitive motion tasks. While task-flexibility for non-repetitive motion tasks can be achieved with the use of basis functions, this typically comes with a trade-off in performance or design parameters. This study aims to achieve both task-flexibility and high performance with a single time-domain optimization framework. By defining a criterion combining the cost for performance and task-flexibility, an optimal feedforward with task-flexibility of basis function ILC and high performance surpassing standard norm-optimal ILC is obtained. Numerical validation on a two-mass motion system confirm the capabilities of the developed framework.",

author = "Kentaro Tsurumoto and Wataru Ohnishi and Takafumi Koseki and \{van Haren\}, Max and Tom Oomen",

note = "Publisher Copyright: {\textcopyright} 2024 EUCA.; 22nd European Control Conference 2024, ECC 2024, ECC 2024 ; Conference date: 25-06-2024 Through 28-06-2024",

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doi = "10.23919/ECC64448.2024.10590964",

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Tsurumoto, K, Ohnishi, W, Koseki, T, van Haren, M & Oomen, T 2024, Combined Time-Domain Optimization Design for Task-Flexible and High Performance ILC. in 2024 European Control Conference, ECC 2024., 10590964, Institute of Electrical and Electronics Engineers, pp. 1190-1195, 22nd European Control Conference 2024, ECC 2024, Stockholm, Sweden, 25/06/24. https://doi.org/10.23919/ECC64448.2024.10590964

Combined Time-Domain Optimization Design for Task-Flexible and High Performance ILC. / Tsurumoto, Kentaro; Ohnishi, Wataru; Koseki, Takafumi et al.
2024 European Control Conference, ECC 2024. Institute of Electrical and Electronics Engineers, 2024. p. 1190-1195 10590964.

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

TY - GEN

T1 - Combined Time-Domain Optimization Design for Task-Flexible and High Performance ILC

AU - Tsurumoto, Kentaro

AU - Ohnishi, Wataru

AU - Koseki, Takafumi

AU - van Haren, Max

AU - Oomen, Tom

N1 - Conference code: 22

PY - 2024/7/24

Y1 - 2024/7/24

N2 - Iterative learning control (ILC) yields substantial performance improvement for repetitive motion tasks. While task-flexibility for non-repetitive motion tasks can be achieved with the use of basis functions, this typically comes with a trade-off in performance or design parameters. This study aims to achieve both task-flexibility and high performance with a single time-domain optimization framework. By defining a criterion combining the cost for performance and task-flexibility, an optimal feedforward with task-flexibility of basis function ILC and high performance surpassing standard norm-optimal ILC is obtained. Numerical validation on a two-mass motion system confirm the capabilities of the developed framework.

AB - Iterative learning control (ILC) yields substantial performance improvement for repetitive motion tasks. While task-flexibility for non-repetitive motion tasks can be achieved with the use of basis functions, this typically comes with a trade-off in performance or design parameters. This study aims to achieve both task-flexibility and high performance with a single time-domain optimization framework. By defining a criterion combining the cost for performance and task-flexibility, an optimal feedforward with task-flexibility of basis function ILC and high performance surpassing standard norm-optimal ILC is obtained. Numerical validation on a two-mass motion system confirm the capabilities of the developed framework.

UR - https://www.scopus.com/pages/publications/85200586890

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DO - 10.23919/ECC64448.2024.10590964

M3 - Conference contribution

AN - SCOPUS:85200586890

SP - 1190

EP - 1195

BT - 2024 European Control Conference, ECC 2024

PB - Institute of Electrical and Electronics Engineers

T2 - 22nd European Control Conference 2024, ECC 2024

Y2 - 25 June 2024 through 28 June 2024

ER -

Combined Time-Domain Optimization Design for Task-Flexible and High Performance ILC

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