Unlocking history through automated virtual unfolding of sealed documents imaged by X-ray microtomography

Jana Dambrogio; Ghassaei Amanda; Daniel Starza Smith; Holly Jackson; Martin L. Demaine; Davis Graham; David Mills; Rebekah Ahrendt; N.N.W. Akkerman; David Van der Linden; Eric D. Demaine

doi:10.1038/s41467-021-21326-w

Unlocking history through automated virtual unfolding of sealed documents imaged by X-ray microtomography

Jana Dambrogio^*, Ghassaei Amanda^*, Daniel Starza Smith, Holly Jackson, Martin L. Demaine, Davis Graham^*, David Mills, Rebekah Ahrendt, N.N.W. Akkerman, David Van der Linden, Eric D. Demaine

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Computational flattening algorithms have been successfully applied to X-ray microtomography scans of damaged historical documents, but have so far been limited to scrolls, books, and documents with one or two folds.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 demonstrate our method on four letterpackets from Renaissance Europe, reading the contents of one unopened letter for the first time. Using the results of virtual unfolding, we situate our findings within a novel letterlocking categorization chart based on our study of 250,000 historical letters.

Original language	English
Article number	1184
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-021-21326-w
Publication status	Published - Dec 2021

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Publisher Copyright:
© 2021, The Author(s).

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title = "Unlocking history through automated virtual unfolding of sealed documents imaged by X-ray microtomography",

abstract = "Computational flattening algorithms have been successfully applied to X-ray microtomography scans of damaged historical documents, but have so far been limited to scrolls, books, and documents with one or two folds.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{\textquoteright}s contents and crease pattern while preserving letterlocking evidence. We demonstrate our method on four letterpackets from Renaissance Europe, reading the contents of one unopened letter for the first time. Using the results of virtual unfolding, we situate our findings within a novel letterlocking categorization chart based on our study of 250,000 historical letters.",

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doi = "10.1038/s41467-021-21326-w",

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AU - Dambrogio, Jana

AU - Amanda, Ghassaei

AU - Smith, Daniel Starza

AU - Jackson, Holly

AU - Demaine, Martin L.

AU - Graham, Davis

AU - Mills, David

AU - Ahrendt, Rebekah

AU - Akkerman, N.N.W.

AU - Van der Linden, David

AU - Demaine, Eric D.

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N2 - Computational 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 demonstrate our method on four letterpackets from Renaissance Europe, reading the contents of one unopened letter for the first time. Using the results of virtual unfolding, we situate our findings within a novel letterlocking categorization chart based on our study of 250,000 historical letters.

AB - Computational 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 demonstrate our method on four letterpackets from Renaissance Europe, reading the contents of one unopened letter for the first time. Using the results of virtual unfolding, we situate our findings within a novel letterlocking categorization chart based on our study of 250,000 historical letters.

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Unlocking history through automated virtual unfolding of sealed documents imaged by X-ray microtomography

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