Providing Secrecy With Structured Codes: Tools and Applications to Two-User Gaussian Channels

Details Providing Secrecy With Structured Codes: Tools and Applications to Two-User Gaussian Channels Providing Secrecy With Structured Codes: Tools and Applications to Two-User Gaussian Channels

2009-07-30

arxiv.org/abs/0907.5388v1

Computer Science

Information Theory

50 pages. Submitted to IEEE Transactions on Information Theory

Scientific paper

Recent results have shown that structured codes can be used to construct good channel codes, source codes and physical layer network codes for Gaussian channels. For Gaussian channels with secrecy constraints, however, efforts to date rely on random codes. In this work, we advocate that structured codes are useful for providing secrecy, and show how to compute the secrecy rate when structured codes are used. In particular, we solve the problem of bounding equivocation rates with one important class of structured codes, i.e., nested lattice codes. Having established this result, we next demonstrate the use of structured codes for secrecy in two-user Gaussian channels. In particular, with structured codes, we prove that a positive secure degree of freedom is achievable for a large class of fully connected Gaussian channels as long as the channel is not degraded. By way of this, for these channels, we establish that structured codes outperform Gaussian random codes at high SNR. This class of channels include the two-user multiple access wiretap channel, the two-user interference channel with confidential messages and the two-user interference wiretap channel. A notable consequence of this result is that, unlike the case with Gaussian random codes, using structured codes for both transmission and cooperative jamming, it is possible to achieve an arbitrary large secrecy rate given enough power.

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