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Autori principali: Sánchez-Arriaga, Néstor Eduardo, Canzini, Ethan, Espley-Plumb, Nathan John, Farnsworth, Michael, Pope, Simon, Leyland, Adrian, Tiwari, Ashutosh
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.05853
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author Sánchez-Arriaga, Néstor Eduardo
Canzini, Ethan
Espley-Plumb, Nathan John
Farnsworth, Michael
Pope, Simon
Leyland, Adrian
Tiwari, Ashutosh
author_facet Sánchez-Arriaga, Néstor Eduardo
Canzini, Ethan
Espley-Plumb, Nathan John
Farnsworth, Michael
Pope, Simon
Leyland, Adrian
Tiwari, Ashutosh
contents Thin-film inspection on large-area substrates in coating manufacture remains a critical parameter to ensure product quality; however, extending the inspection process precisely over a large area presents major challenges, due to the limitations of the available inspection equipment. An additional manipulation problem arises when automating the inspection process, as the silicon wafer requires movement constraints to ensure accurate measurements and to prevent damage. Furthermore, there are other increasingly important large-area industrial applications, such as Roll-to-Roll (R2R) manufacturing where coating thickness inspection introduces additional challenges. This paper presents an autonomous inspection system using a robotic manipulator with a novel learned constraint manifold to control a wafer to its calibration point, and a novel multi-sensor array with high potential for scalability into large substrate areas. We demonstrate that the manipulator can perform required motions whilst adhering to movement constraints. We further demonstrate that the sensor array can perform thickness measurements statically with an error of $<2\%$ compared to a commercial reflectometer, and through the use of a manipulator can dynamically detect angle variations $>0.5^\circ$ from the calibration point whilst monitoring the RMSE and $R^2$ over 1406 data points. These features are potentially useful for detecting displacement variations in R2R manufacturing processes.
format Preprint
id arxiv_https___arxiv_org_abs_2503_05853
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Enhancing Thin-Film Wafer Inspection With A Multi-Sensor Array And Robot Constraint Maintenance
Sánchez-Arriaga, Néstor Eduardo
Canzini, Ethan
Espley-Plumb, Nathan John
Farnsworth, Michael
Pope, Simon
Leyland, Adrian
Tiwari, Ashutosh
Robotics
Signal Processing
Thin-film inspection on large-area substrates in coating manufacture remains a critical parameter to ensure product quality; however, extending the inspection process precisely over a large area presents major challenges, due to the limitations of the available inspection equipment. An additional manipulation problem arises when automating the inspection process, as the silicon wafer requires movement constraints to ensure accurate measurements and to prevent damage. Furthermore, there are other increasingly important large-area industrial applications, such as Roll-to-Roll (R2R) manufacturing where coating thickness inspection introduces additional challenges. This paper presents an autonomous inspection system using a robotic manipulator with a novel learned constraint manifold to control a wafer to its calibration point, and a novel multi-sensor array with high potential for scalability into large substrate areas. We demonstrate that the manipulator can perform required motions whilst adhering to movement constraints. We further demonstrate that the sensor array can perform thickness measurements statically with an error of $<2\%$ compared to a commercial reflectometer, and through the use of a manipulator can dynamically detect angle variations $>0.5^\circ$ from the calibration point whilst monitoring the RMSE and $R^2$ over 1406 data points. These features are potentially useful for detecting displacement variations in R2R manufacturing processes.
title Enhancing Thin-Film Wafer Inspection With A Multi-Sensor Array And Robot Constraint Maintenance
topic Robotics
Signal Processing
url https://arxiv.org/abs/2503.05853