Title :
A privacy preserving distributed reputation mechanism
Author :
Anceaume, Emmanuelle ; Guette, Gilles ; Lajoie-Mazenc, P. ; Prigent, Nicolas ; Tong, Valerie Viet Triem
Author_Institution :
IRISA, France
Abstract :
Reputation systems allow to estimate the trustworthiness of entities based on their past behavior. Electronic commerce, peer-to-peer routing and collaborative environments, just to cite a few, highly benefit from using reputation systems. To guarantee an accurate estimation, reputation systems typically rely on a central authority, on the identification and authentication of all the participants, or both. In this paper, we go a step further by presenting a distributed reputation mechanism which is robust against malicious behaviors and that preserves the privacy of its clients. Guaranteed error bounds on the estimation are provided.
Keywords :
data privacy; electronic commerce; message authentication; peer-to-peer computing; protocols; telecommunication network routing; authentication; central authority; collaborative environments; electronic commerce; error bounds; malicious behaviors; peer-to-peer routing; privacy preserving distributed reputation mechanism; Accuracy; Estimation; Modulation; Privacy; Protocols; Robustness; Terminology; Distributed systems; Privacy; Reputation;
Conference_Titel :
Communications (ICC), 2013 IEEE International Conference on
Conference_Location :
Budapest
DOI :
10.1109/ICC.2013.6654809
