AI: Researchers develop automatic text recognition for ancient cuneiform tablets

MARTIN-LUTHER-UNIVERSITÄT HALLE-WITTENBERG—A new artificial intelligence (AI) software is now able to decipher difficult-to-read texts on cuneiform tablets. It was developed by a team from Martin Luther University Halle-Wittenberg (MLU), Johannes Gutenberg University Mainz, and Mainz University of Applied Sciences. Instead of photos, the AI system uses 3D models of the tablets, delivering significantly more reliable results than previous methods. This makes it possible to search through the contents of multiple tablets to compare them with each other. It also paves the way for entirely new research questions.

In their new approach, the researchers used 3D models of nearly 2,000 cuneiform tablets, including around 50 from a collection at MLU. According to estimates, around one million such tablets still exist worldwide. Many of them are over 5,000 years old and are thus among mankind’s oldest surviving written records. They cover an extremely wide range of topics: “Everything can be found on them: from shopping lists to court rulings. The tablets provide a glimpse into mankind’s past several millennia ago. However, they are heavily weathered and thus difficult to decipher even for trained eyes,” says Hubert Mara, an assistant professor at MLU.

This is because the cuneiform tablets are unfired chunks of clay into which writing has been pressed. To complicate matters, the writing system back then was very complex and encompassed several languages. Therefore, not only are optimal lighting conditions needed to recognize the symbols correctly, a lot of background knowledge is required as well. “Up until now it has been difficult to access the content of many cuneiform tablets at once – you sort of need to know exactly what you are looking for and where,” Mara adds. 

His lab came up with the idea of developing a system of artificial intelligence which is based on 3D models. The new system deciphers characters better than previous methods. In principle, the AI system works along the same lines as OCR software (optical character recognition), which converts the images of writing and text into machine-readable text. This has many advantages. Once converted into computer text, the writing can be more easily read or searched through. “OCR usually works with photographs or scans. This is no problem for ink on paper or parchment. In the case of cuneiform tablets, however, things are more difficult because the light and the viewing angle greatly influence how well certain characters can be identified,” explains Ernst Stötzner from MLU. He developed the new AI system as part of his master’s thesis under Hubert Mara. 

The team trained the new AI software using three-dimensional scans and additional data. Much of this data was provided by Mainz University of Applied Sciences, which is overseeing a large edition project for 3D models of clay tablets. The AI system subsequently did succeed in reliably recognising the symbols on the tablets. “We were surprised to find that our system even works well with photographs, which are actually a poorer source material,” says Stötzner. 

The work by the researchers from Halle and Mainz provides new access to what has hitherto been a relatively exclusive material and opens up many new lines of inquiry. Up until now it has only been a prototype which is able to reliably discern symbols from two languages. However, a total of twelve cuneiform languages are known to exist. In the future, the software could also help to decipher weathered inscriptions, for example in cemeteries, which are three-dimensional like the cuneiform script. 

The scientists have already presented their work at several internationally renowned conferences, most recently at the International Conference on Computer Vision. A few weeks ago, the team received the “Best Paper Award” at the Graphics and Cultural Heritage Conference. 


Ernst Stötzner during scanning. Uni Halle / Maike Glöckner


Some of the cuneiform tablets are only a few centimeters in size. Uni Halle / Maike Glöckner



*Stötzner E., Homburg T., Bullenkamp J.P. & Mara H. R-CNN based Polygonal Wedge Detection Learned from Annotated 3D Renderings and Mapped Photographs of Open Data Cuneiform Tablets. GCH 2023 – Eurographics Workshop on Graphics and Cultural Heritage. doi: 10.2312/gch.20231157



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