TY - JOUR
T1 - A comprehensive review of dwell time optimization methods in computer-controlled optical surfacing
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
N1 - Publisher Copyright:
© 2024 Light Publishing Group. All rights reserved.
PY - 2024
Y1 - 2024
N2 - 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.
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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U2 - 10.1038/s41377-020-0333-9
DO - 10.1038/s41377-020-0333-9
M3 - Article
AN - SCOPUS:85191560582
SN - 2689-9620
VL - 5
JO - Light: Advanced Manufacturing
JF - Light: Advanced Manufacturing
ER -