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Wednesday, July 26, 2023

Reconstructing ancient engraving techniques

TECHNOLOGY WATCH: Shining new light on ancient engraving techniques in Israel (unattributed, St Louis Jewish Light).
Researchers at the Hebrew University of Jerusalem (HU) have developed new 3-D software, called ArchCUT3-D, that they have used to extract and analyze engravings from ancient Israel and that could lead to a better understanding of the engravers’ background and skills.

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The two engravings are from the late second millennium BCE at Timna Valley Park. The graffito, from the same area, is modern.

For much more on the Timna Valley excavation, especially its important organic remains, start here and follow the links.

The underlying open-access article is available from the journal Nature Humanities and Social Sciences Communications:

Recognizing technique variation in rock engravings: ArchCUT3-D for micromorphological analysis

Lena Dubinsky, Marcelo David & Leore Grosman
Humanities and Social Sciences Communications volume 10, Article number: 316 (2023)

Abstract

Ancient rock engravings evoke the interest of archeologists and art historians as an important remnant of human cultures. Traditionally, engraved images are studied based on iconography, iconology, and stylistic characteristics, with little emphasis on execution technology. In contrast, the research method presented in this study strives to characterize the techniques adopted for making rock engravings in ancient times, with technological variations considered as indicators of the engraver’s production process. 3-D scans of two ancient engravings and contemporary graffiti were obtained from Site 25 in Timna Park, Southern Israel. The models were analyzed with ArchCUT3-D, a software specifically developed to precisely evaluate the 3-D micromorphological characteristics of the incisions making up the engraving. The software analyzes the surface micromorphology by extracting 3-D slices of the incisions using an accurate and repeatable method. Our results indicate that different incisions were executed by remarkably distinct techniques of stroking the rock surface with a sharp tool. The identification of discriminant characteristics enabled us to demonstrate the particularities of the engraving operations, such as ergonomic conditions and the level of consistency of the engraving gesture. ArchCUT3-D thus provides a computational method for incision technique recognition through micromorphology specifications, and the reconstruction of engraving gestures and individual production procedures.

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