Title :
A Security Pattern for Untraceable Secret Handshakes
Author :
Cuevas, Angel ; El Khoury, P. ; Gomez, Laurent ; Laube, Annett ; Sorniotti, Alessandro
Author_Institution :
Dept. of Telematic Eng., Univ. Carlos III of Madrid, Leganes, Spain
Abstract :
A security pattern describes a particular recurring security problem that arises in specific contexts and presents a well-proven generic solution for it. This paper describes an untraceable secret handshake, a protocol that allows two users to mutually verify another´s properties without revealing their identity. The complex security solution is split into smaller parts which are described in an abstract way. The identified security problems and their solutions are captured as SERENITY security patterns. The structured description together with motivating scenarios makes the security solution better understandable for non-security experts and helps to disseminate the security knowledge to application developers.
Keywords :
cryptographic protocols; SERENITY security pattern; cryptographic protocol; security knowledge; untraceable secret handshake; Acceleration; Concrete; Cryptographic protocols; Data security; Fellows; Information security; Libraries; Natural languages; Protection; Telematics; Secret handshake; Security pattern;
Conference_Titel :
Emerging Security Information, Systems and Technologies, 2009. SECURWARE '09. Third International Conference on
Conference_Location :
Athens, Glyfada
Print_ISBN :
978-0-7695-3668-2
DOI :
10.1109/SECURWARE.2009.9
