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CORR
2010
Springer
2010
Springer
Distributed Storage Codes Meet Multiple-Access Wiretap Channels
We consider i) the overhead minimization of maximum-distance seperable (MDS) storage codes for the repair of a single failed node and ii) the total secure degrees-of-freedom (S-DoF) maximization in a multiple-access compound wiretap channel. We show that the two problems are formally connected. Specifically, the overhead minimization for a single node failure of an optimal MDS code, i.e. one that can achieve the information theoretic overhead minimum, reduces to maximizing the S-DoF in a multiple-access compound wiretap channel. Additionally, we show that maximizing the S-DoF in a multiple-access compound wiretap channel reduces to minimizing the overhead of an MDS code for the repair of a departed node. An optimal MDS code maps to a full S-DoF channel and a full S-DoF channel maps to an MDS code with minimum repair overhead for one failed node. We also state a general framework for code-to-channel and channel-to-code mappings and performance bounds between the two settings. The underl...
Real-time TrafficCompound Wiretap Channel | CORR 2010 | Education | Multiple-access Compound Wiretap | Overhead Minimization |
| Added | 09 Dec 2010 |
| Updated | 09 Dec 2010 |
| Type | Journal |
| Year | 2010 |
| Where | CORR |
| Authors | Dimitris S. Papailiopoulos, Alexandros G. Dimakis |
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