Add to ORKGComputational flattening algorithms have been successfully applied to X-ray microtomography scans of damaged historical documents, but have so far been limited to scrolls, books, and documents with one or two folds. The challenge tackled here is to reconstruct the intricate folds, tucks, and slits of unopened letters secured shut with “letterlocking,” a practice—systematized in this paper—which underpinned global communications security for centuries before modern envelopes. We present a fully automatic computational approach for reconstructing and virtually unfolding volumetric scans of a locked letter with complex internal folding, producing legible images of the letter’s contents and crease pattern while preserving letterlocking evidence...
We develop a framework to virtually unroll fragile historical parchment scrolls, which cannot be phy...
When digitizing or investigating historical documents, it is often the case that a document can not ...
Abstract—Historical parchment scrolls are fragile, and prone to damage from a variety of causes such...
Computational flattening algorithms have been successfully applied to X-ray microtomography scans of...
Computational flattening algorithms have been successfully applied to X-ray microtomography scans of...
The historical importance of ancient manuscripts is unique since they provide information about the ...
There is a large body of historical documents that are too fragile to be opened or unrolled, making ...
The objective of our work is to enable the reading of fragile scrolled historical parchments without...
What is letterlocking? Letterlocking refers to the process by which a substrate such as paper, parch...
Part of this work was carried out with funding from the EPSRC (project EP/G010110/1, High defnition ...
One of the best sources of information about our cultural origin are written texts. Often, texts ar...
This article presents evidence about the use of the 'spiral lock', a highly secure letterlocking mec...
Ancient Egyptian papyri are often folded, rolled up or kept as small packages, sometimes even sealed...
This article presents evidence about the use of the 'spiral lock', a highly secure letterlocking mec...
We develop a framework to virtually unroll fragile historical parchment scrolls, which cannot be phy...
When digitizing or investigating historical documents, it is often the case that a document can not ...
Abstract—Historical parchment scrolls are fragile, and prone to damage from a variety of causes such...
Computational flattening algorithms have been successfully applied to X-ray microtomography scans of...
Computational flattening algorithms have been successfully applied to X-ray microtomography scans of...
The historical importance of ancient manuscripts is unique since they provide information about the ...
There is a large body of historical documents that are too fragile to be opened or unrolled, making ...
The objective of our work is to enable the reading of fragile scrolled historical parchments without...
What is letterlocking? Letterlocking refers to the process by which a substrate such as paper, parch...
Part of this work was carried out with funding from the EPSRC (project EP/G010110/1, High defnition ...
One of the best sources of information about our cultural origin are written texts. Often, texts ar...
This article presents evidence about the use of the 'spiral lock', a highly secure letterlocking mec...
Ancient Egyptian papyri are often folded, rolled up or kept as small packages, sometimes even sealed...
This article presents evidence about the use of the 'spiral lock', a highly secure letterlocking mec...
We develop a framework to virtually unroll fragile historical parchment scrolls, which cannot be phy...
When digitizing or investigating historical documents, it is often the case that a document can not ...
Abstract—Historical parchment scrolls are fragile, and prone to damage from a variety of causes such...
