Title :
Fingerprinting Blank Paper Using Commodity Scanners
Author :
Clarkson, William ; Weyrich, Tim ; Finkelstein, Adam ; Heninger, Nadia ; Halderman, J. Alex ; Felten, Edward W.
Author_Institution :
Dept. of Comput. Sci., Princeton Univ., Princeton, NJ, USA
Abstract :
We develop a novel technique for authenticating physical documents by using random, naturally occurring imperfections in paper texture. To this end, we devised a new method for measuring the three-dimensional surface of a paper without modifying the document in any way, using only a commodity scanner. From this physical feature, we generate a concise fingerprint that uniquely identifies the document. Our method is secure against counterfeiting, robust to harsh handling, and applicable even before any content is printed on a page. It has a wide range of applications, including detecting forged currency and tickets, authenticating passports, and halting counterfeit goods. On a more sinister note, document identification could be used to de-anonymize printed surveys and to compromise the secrecy of paper ballots.
Keywords :
document handling; security of data; commodity scanners; de-anonymize printed surveys; document identification; fingerprinting blank paper; forged currency detection; harsh handling; paper ballots secrecy; paper texture; physical documents authentication; Authentication; Computer science; Computer security; Counterfeiting; Fingerprint recognition; Forgery; Printing; Robustness; Shape measurement; Surface texture; biometrics; fingerprinting; image procesing; physical security;
Conference_Titel :
Security and Privacy, 2009 30th IEEE Symposium on
Conference_Location :
Berkeley, CA
Print_ISBN :
978-0-7695-3633-0
