Abstract
We consider the problem of communicating a message m in the presence of a malicious jamming adversary (Calvin), who can erase an arbitrary set of up to pn bits, out of n transmitted bits X = (x1., xn). The capacity of such a channel when Calvin is exactly causal, i.e. Calvin's decision of whether or not to erase bit xi depends on his observations (x1., xi) was recently characterized [1], [2] to be 1 - 2p. In this work we show two (perhaps) surprising phenomena. Firstly, we demonstrate via a novel code construction that if Calvin is delayed by even a single bit, i.e. Calvin's decision of whether or not to erase bit xi depends only on (x1., xi-1) (and is independent of the 'current bit' xi) then the capacity increases to 1 - p when the encoder is allowed to be stochastic. Secondly, we show via a novel jamming strategy for Calvin that, in the single-bit-delay setting, if the encoding is deterministic (i.e. the transmitted codeword X is a deterministic function of the message m) then no rate asymptotically larger than 1 - 2p is possible with vanishing probability of error, hence stochastic encoding (using private randomness at the encoder) is essential to achieve the capacity of 1- p against a one-bit-delayed Calvin.
Original language | English |
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Title of host publication | Proceedings - ISIT 2016; 2016 IEEE International Symposium on Information Theory |
Publisher | Institute of Electrical and Electronics Engineers Inc. |
Pages | 880-884 |
Number of pages | 5 |
ISBN (Electronic) | 9781509018062 |
DOIs | |
State | Published - 10 Aug 2016 |
Externally published | Yes |
Event | 2016 IEEE International Symposium on Information Theory, ISIT 2016 - Barcelona, Spain Duration: 10 Jul 2016 → 15 Jul 2016 |
Publication series
Name | IEEE International Symposium on Information Theory - Proceedings |
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Volume | 2016-August |
ISSN (Print) | 2157-8095 |
Conference
Conference | 2016 IEEE International Symposium on Information Theory, ISIT 2016 |
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Country/Territory | Spain |
City | Barcelona |
Period | 10/07/16 → 15/07/16 |
Bibliographical note
Publisher Copyright:© 2016 IEEE.