Title :
Distributed storage systems with secure and exact repair — New results
Author :
Tandon, Ravi ; Amura, SaiDhiraj ; Clancy, T. Charles ; Buehrer, R. Michael
Author_Institution :
Hume Center for Nat. Security & Technol., Virginia Tech, Blacksburg, VA, USA
Abstract :
Distributed storage systems (DSS) in the presence of a passive eavesdropper are considered in this paper. A typical DSS is characterized by 3 parameters (n, k, d) where, a file is stored in a distributed manner across n nodes such that it can be recovered entirely from any k out of n nodes. Whenever a node fails, d ϵ [k, n) nodes participate in the repair process. In this paper, we study the exact repair capabilities of a DSS, where a failed node is replaced with its exact replica. Securing this DSS from a passive eavesdropper capable of wiretapping the repair process of any l <; k nodes, is the main focus of this paper. Specifically, we characterize the optimal secure storage-vs-exact-repair-bandwidth tradeoff region for the (4, 2, 3) DSS when l = 1 and the (n, n - 1, n - 1) DSS when l = n - 2.
Keywords :
security of data; storage management; DSS security; distributed storage systems; exact repair bandwidth; exact repair capabilities; file recovery; file storage; node replica; optimal secure storage; passive eavesdropper; secure repair capabilities; wiretapping; Bandwidth; Decision support systems; Maintenance engineering; Security; Silicon; Tin; Upper bound;
Conference_Titel :
Information Theory and Applications Workshop (ITA), 2014
Conference_Location :
San Diego, CA
DOI :
10.1109/ITA.2014.6804226
