A mysterious encrypted manuscript of a secret society, meticulously written in abstract symbols and Roman letters, has finally been deciphered more than three centuries after it was first handwritten, scientists now reveal.
The enciphered message, or cryptogram, revealed the rituals and political aims of an enigmatic 18th-century German fellowship, the "Oculist Order," revealing the society had a fascination with eye surgery, though it seems members of the society were not eye doctors.
"This opens up a window for people who study the history of ideas and the history of secret societies," said researcher Kevin Knight, a computer scientist at the University of Southern California. "Historians believe that secret societies have had a role in revolutions, but all that is yet to be worked out, and a big part of the reason, is because so many documents are enciphered."
Cracking a cryptogram
The mysterious cryptogram, bound in gold-and-green brocade paper, dates back to a time between 1760 and 1780. Once hidden in the depths of the East Berlin Academy and uncovered after the Cold War, its 75,000 characters are written in 90 different cipher letters, including the 26 Roman letters as well as many abstract symbols. [Read: History's Most Overlooked Mysteries]
On its 105 yellowing pages, the only plain text is "Philipp 1866" on the flyleaf and "Copiales 3" at the end of the last page. "Philipp" is thought to have been an owner of the manuscript, while "Copiales" was used to give the secret writing its name: the Copiale Cipher.
To break the cipher, an international team of researchers tracked down the manuscript, now in a private collection, and transcribed a machine-readable version of the text.
The investigators began not even knowing the language of the encrypted document. At first they focused on the Roman and Greek characters sprinkled throughout the Copiale Cipher, isolating them from the abstract symbols and attacked it as the real text.
"It took quite a long time and resulted in complete failure," Knight said.
After trying 80 languages, the cryptography team realized the Roman characters were "nulls" intended to mislead readers, somewhat like how pig Latin adds the suffix "ay" to words in an attempt to confuse listeners. It was the abstract symbols that held the message.
"It was exciting to decode," Knight recalled.
One idea that eventually bore fruit was that abstract symbols with similar shapes in the Copiale Cipher represented the same letter or groups of letters — for instance, the symbols with the circumflex "^" over them were actually the letter "E." The researchers also detected an extraordinarily common three-symbol cluster, which they deduced represented the letters "cht," a common trio in German. Eventually from these lines of attack, the first meaningful words of German emerged: "Ceremonies of Initiation," followed by "Secret Section," as translated.
"When you get a new code and look at it, the possibilities are nearly infinite," Knight said. "Once you come up with a hypothesis based on your intuition as a human, you can turn over a lot of grunt work to the computer."
These findings "may help trace the development of political ideas and the advancement of ranks within secret societies," Knight told LiveScience. As to why this secret society might have focused on the eye, "the eye is part of the symbology of secret societies," he explained.
More unsolved encryptions
Knight is now targeting other encrypted messages, including ciphers sent by the Zodiac Killer, a serial murderer who sent taunting messages to the press and has never been caught. He is also applying his computer-assisted decryption software to other famous unsolved codes such as the last section of "Kryptos," an encrypted message carved into a granite sculpture on the grounds of the CIA headquarters, and the Voynich Manuscript, a medieval document that has baffled professional cryptographers for decades.
However, the trickiest puzzle of all for Knight may be everyday speech. He is one of the world's leading experts on machine translation, teaching computers to turn Chinese into English, or Arabic into Korean.
"Translation remains a tough challenge for artificial intelligence," said Knight, whose translation software has been adopted by Apple and Intel, among other companies.
Knight is approaching translation as a cryptographic problem. As such, research into cracking the ciphers of obscure secret societies could improve human language translation, and possibly lead to the ability to translate languages not currently spoken by humans, including ancient languages and animal communication. [Read: Dead Languages Reveal a Lost World]
"We are exploring how to make use of cryptographic techniques to make better language translation software," Knight said.
The scientists detailed their work in June at a meeting of the Association for Computational Linguistics in Portland Ore.
Related on LiveScience:
Copyright 2011 LiveScience, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.