Math @ Duke
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Publications [#326891] of Robert Calderbank
Papers Published
- Goparaju, S; Rouayheb, SE; Calderbank, R, Can linear minimum storage regenerating codes be universally secure?,
Conference Record - Asilomar Conference on Signals, Systems and Computers, vol. 2016-February
(February, 2016),
pp. 549-553, IEEE, ISBN 9781467385763 [doi]
(last updated on 2024/04/24)
Abstract: We study the problem of making a distributed storage system information-theoretically secure against a passive eavesdropper, and aim to characterize coding schemes that are universally secure for up to a given number of eavesdropped nodes. Specifically, we consider minimum storage regenerating (MSR) codes and ask the following question: For an MSR code where a failed node is repaired using all the remaining nodes, is it possible to simultaneously be optimally secure using a single linear coding scheme? We define a pareto-optimality associated with this simultaneity and show that there exists at least one linear coding scheme that is pareto-optimal.
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