A comprehensive review of dwell time optimization methods in computer-controlled optical surfacing

Tianyi Wang; Xiaolong Ke; Lei Huang; Qingqing Cui; Zili Zhang; Chunjin Wang; Hyukmo Kang; Weslin Pullen; Heejoo Choi; Daewook Kim; Vipender Negi; Qian Kemao; Yi Zhu; Stefano Giorgio; Philip Boccabella; Nathalie Bouet; Corey Austin; Mourad Idir

doi:10.37188/LAM.2024.021

A comprehensive review of dwell time optimization methods in computer-controlled optical surfacing

Tianyi Wang (Corresponding Author)
, Xiaolong Ke (Corresponding Author)
, Lei Huang
, Qingqing Cui
, Zili Zhang
, Chunjin Wang
, Hyukmo Kang
, Weslin Pullen
, Heejoo Choi
, Daewook Kim
, Vipender Negi
, Qian Kemao
, Yi Zhu
, Stefano Giorgio
, Philip Boccabella
, Nathalie Bouet
, Corey Austin
, Mourad Idir

Research output: Journal article publication › Journal article › Academic research › peer-review

13 Citations (Scopus)

Abstract

Dwell time plays a vital role in determining the accuracy and convergence of the computer-controlled optical surfacing process. However, optimizing dwell time presents a challenge due to its ill-posed nature, resulting in non-unique solutions. To address this issue, several well-known methods have emerged, including the iterative, Bayesian, Fourier transform, and matrix-form methods. Despite their independent development, these methods share common objectives, such as minimizing residual errors, ensuring dwell time’s positivity and smoothness, minimizing total processing time, and enabling flexible dwell positions. This paper aims to comprehensively review the existing dwell time optimization methods, explore their interrelationships, provide insights for their effective implementations, evaluate their performances, and ultimately propose a unified dwell time optimization methodology.

Original language	English
Article number	21
Number of pages	30
Journal	Light: Advanced Manufacturing
Volume	5
DOIs	https://doi.org/10.37188/LAM.2024.021
Publication status	Published - 8 Aug 2024

Keywords

computer-controlled optical surfacing
Dwell time optimization
finishing
optical fabrication
polishing

ASJC Scopus subject areas

Industrial and Manufacturing Engineering
Materials Science (miscellaneous)
Metals and Alloys
Instrumentation

More information

10.37188/LAM.2024.021

Cite this

Wang, T., Ke, X., Huang, L., Cui, Q., Zhang, Z., Wang, C., Kang, H., Pullen, W., Choi, H., Kim, D., Negi, V., Kemao, Q., Zhu, Y., Giorgio, S., Boccabella, P., Bouet, N., Austin, C., & Idir, M. (2024). A comprehensive review of dwell time optimization methods in computer-controlled optical surfacing. Light: Advanced Manufacturing, 5, Article 21. https://doi.org/10.37188/LAM.2024.021

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AU - Wang, Tianyi

AU - Ke, Xiaolong

AU - Huang, Lei

AU - Cui, Qingqing

AU - Zhang, Zili

AU - Wang, Chunjin

AU - Kang, Hyukmo

AU - Pullen, Weslin

AU - Choi, Heejoo

AU - Kim, Daewook

AU - Negi, Vipender

AU - Kemao, Qian

AU - Zhu, Yi

AU - Giorgio, Stefano

AU - Boccabella, Philip

AU - Bouet, Nathalie

AU - Austin, Corey

AU - Idir, Mourad

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AB - Dwell time plays a vital role in determining the accuracy and convergence of the computer-controlled optical surfacing process. However, optimizing dwell time presents a challenge due to its ill-posed nature, resulting in non-unique solutions. To address this issue, several well-known methods have emerged, including the iterative, Bayesian, Fourier transform, and matrix-form methods. Despite their independent development, these methods share common objectives, such as minimizing residual errors, ensuring dwell time’s positivity and smoothness, minimizing total processing time, and enabling flexible dwell positions. This paper aims to comprehensively review the existing dwell time optimization methods, explore their interrelationships, provide insights for their effective implementations, evaluate their performances, and ultimately propose a unified dwell time optimization methodology.

KW - computer-controlled optical surfacing

KW - Dwell time optimization

KW - finishing

KW - optical fabrication

KW - polishing

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DO - 10.37188/LAM.2024.021

M3 - Journal article

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JO - Light: Advanced Manufacturing

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ER -

A comprehensive review of dwell time optimization methods in computer-controlled optical surfacing

Abstract

Keywords

ASJC Scopus subject areas

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