Exact correct-decoding exponent of the wiretap channel decoder

Neri Merhav

doi:10.1109/TIT.2014.2361765

Exact correct-decoding exponent of the wiretap channel decoder

Neri Merhav

Technion - Israel Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The performance of the achievability scheme for Wyner's wiretap channel model is examined from the perspective of the probability of correct decoding, P_c , at the wiretap channel decoder. In particular, for finite-alphabet memoryless channels, the exact random coding exponent of P_c is derived as a function of the total coding rate R₁ and the rate of each subcode R₂. Two different representations are given for this function and its basic properties are provided. We also characterize the region of pairs of rates (R₁, R₂) of full security in the sense of the random coding exponent of P_c , in other words, the region where the exponent of this achievability scheme is the same as that of blind guessing at the eavesdropper side. Finally, an analogous derivation of the correct-decoding exponent is outlined for the case of the Gaussian channel.

Original language	English
Article number	6918525
Pages (from-to)	7606-7615
Number of pages	10
Journal	IEEE Transactions on Information Theory
Volume	60
Issue number	12
DOIs	https://doi.org/10.1109/TIT.2014.2361765
State	Published - 1 Dec 2014

Keywords

Wiretap channel
information-theoretic security
random coding exponent
secrecy

All Science Journal Classification (ASJC) codes

Information Systems
Computer Science Applications
Library and Information Sciences

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10.1109/TIT.2014.2361765

Cite this

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abstract = "The performance of the achievability scheme for Wyner's wiretap channel model is examined from the perspective of the probability of correct decoding, Pc , at the wiretap channel decoder. In particular, for finite-alphabet memoryless channels, the exact random coding exponent of Pc is derived as a function of the total coding rate R1 and the rate of each subcode R2. Two different representations are given for this function and its basic properties are provided. We also characterize the region of pairs of rates (R1, R2) of full security in the sense of the random coding exponent of Pc , in other words, the region where the exponent of this achievability scheme is the same as that of blind guessing at the eavesdropper side. Finally, an analogous derivation of the correct-decoding exponent is outlined for the case of the Gaussian channel.",

keywords = "Wiretap channel, information-theoretic security, random coding exponent, secrecy",

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AB - The performance of the achievability scheme for Wyner's wiretap channel model is examined from the perspective of the probability of correct decoding, Pc , at the wiretap channel decoder. In particular, for finite-alphabet memoryless channels, the exact random coding exponent of Pc is derived as a function of the total coding rate R1 and the rate of each subcode R2. Two different representations are given for this function and its basic properties are provided. We also characterize the region of pairs of rates (R1, R2) of full security in the sense of the random coding exponent of Pc , in other words, the region where the exponent of this achievability scheme is the same as that of blind guessing at the eavesdropper side. Finally, an analogous derivation of the correct-decoding exponent is outlined for the case of the Gaussian channel.

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Exact correct-decoding exponent of the wiretap channel decoder

Abstract

Keywords

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