Non‐invasive on‐site method for thickness measurement of transparent ceramic glazes based on depth from focus

Glazed ceramics are a common material analyzed through geochemistry, whether in the form of tableware collected during excavations or tiles observed as part of architectural features. Within the framework of these studies, measuring the thickness of the transparent glaze is one of the useful variabl...

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Veröffentlicht in:	Archaeometry 2023-02, Vol.65 (1), p.105-117
Hauptverfasser:	Cou, Corentin, Ben Amara, Ayed, Granier, Xavier
Format:	Artikel
Sprache:	eng
Schlagworte:	Art and art history Computer Science Computer Vision and Pattern Recognition depth from focus Geochemistry glazed ceramics Humanities and Social Sciences Instrumentation and Detectors non‐invasive Physics SEM Signal and Image Processing thickness
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container_title	Archaeometry
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creator	Cou, Corentin Ben Amara, Ayed Granier, Xavier
description	Glazed ceramics are a common material analyzed through geochemistry, whether in the form of tableware collected during excavations or tiles observed as part of architectural features. Within the framework of these studies, measuring the thickness of the transparent glaze is one of the useful variables available for the characterization of the ceramic, contributing to searches for provenance as well as serialization. However, this task often requires invasive methods performed in the laboratory, which may not always be possible. This paper develops a non‐invasive and portable on‐site system for measuring the thickness of ceramic glazes. Based on the depth from focus technique, this method makes use of a classical camera, a macroscopic lens, a translation stage, and a laptop for system control. In this article, we test this method through the measurement of glaze for ten samples as compared to results obtained for sections through scanning electron microscopy.
doi_str_mv	10.1111/arcm.12813
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subjects	Art and art history Computer Science Computer Vision and Pattern Recognition depth from focus Geochemistry glazed ceramics Humanities and Social Sciences Instrumentation and Detectors non‐invasive Physics SEM Signal and Image Processing thickness
title	Non‐invasive on‐site method for thickness measurement of transparent ceramic glazes based on depth from focus
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