On Mismatched Oblivious Relaying

Michael Dikshtein; Nir Weinberger; Shlomo Shamai Shitz

doi:10.1109/ISIT54713.2023.10206842

On Mismatched Oblivious Relaying

Michael Dikshtein, Nir Weinberger, Shlomo Shamai Shitz

Technion - Israel Institute of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We consider the problem of reliable communication over a discrete memoryless channel (DMC) with the help of a relay, termed the information bottleneck (IB) channel. There is no direct link between the source and the destination, and the information flows in two hops. The first hop is a noisy channel from the source to the relay. The second hop is a noiseless but limited-capacity backhaul link from the relay to the decoder. We further assume that the relay is oblivious to the transmission codebook. We examine two mismatch scenarios. In the first setting, we assume the decoder is restricted to use some fixed decoding rule, which is mismatched to the actual channel. In the second setting, we assume that the relay is restricted to use some fixed compression metric, which is again mismatched to the statistics of the relay input. We establish bounds on the random-coding capacity of both settings, some of which are shown to be ensemble tight.

Original language	English
Title of host publication	2023 IEEE International Symposium on Information Theory, ISIT 2023
Pages	1687-1692
Number of pages	6
ISBN (Electronic)	9781665475549
DOIs	https://doi.org/10.1109/ISIT54713.2023.10206842
State	Published - 2023
Event	2023 IEEE International Symposium on Information Theory, ISIT 2023 - Taipei, Taiwan, Province of China Duration: 25 Jun 2023 → 30 Jun 2023

Publication series

Name	IEEE International Symposium on Information Theory - Proceedings
Volume	2023-June

Conference

Conference	2023 IEEE International Symposium on Information Theory, ISIT 2023
Country/Territory	Taiwan, Province of China
City	Taipei
Period	25/06/23 → 30/06/23

All Science Journal Classification (ASJC) codes

Theoretical Computer Science
Information Systems
Modelling and Simulation
Applied Mathematics

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10.1109/ISIT54713.2023.10206842

Cite this

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title = "On Mismatched Oblivious Relaying",

abstract = "We consider the problem of reliable communication over a discrete memoryless channel (DMC) with the help of a relay, termed the information bottleneck (IB) channel. There is no direct link between the source and the destination, and the information flows in two hops. The first hop is a noisy channel from the source to the relay. The second hop is a noiseless but limited-capacity backhaul link from the relay to the decoder. We further assume that the relay is oblivious to the transmission codebook. We examine two mismatch scenarios. In the first setting, we assume the decoder is restricted to use some fixed decoding rule, which is mismatched to the actual channel. In the second setting, we assume that the relay is restricted to use some fixed compression metric, which is again mismatched to the statistics of the relay input. We establish bounds on the random-coding capacity of both settings, some of which are shown to be ensemble tight.",

author = "Michael Dikshtein and Nir Weinberger and {Shamai Shitz}, Shlomo",

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year = "2023",

doi = "10.1109/ISIT54713.2023.10206842",

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Dikshtein, M, Weinberger, N & Shamai Shitz, S 2023, On Mismatched Oblivious Relaying. in 2023 IEEE International Symposium on Information Theory, ISIT 2023. IEEE International Symposium on Information Theory - Proceedings, vol. 2023-June, pp. 1687-1692, 2023 IEEE International Symposium on Information Theory, ISIT 2023, Taipei, Taiwan, Province of China, 25/06/23. https://doi.org/10.1109/ISIT54713.2023.10206842

On Mismatched Oblivious Relaying. / Dikshtein, Michael; Weinberger, Nir ; Shamai Shitz, Shlomo.
2023 IEEE International Symposium on Information Theory, ISIT 2023. 2023. p. 1687-1692 (IEEE International Symposium on Information Theory - Proceedings; Vol. 2023-June).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - We consider the problem of reliable communication over a discrete memoryless channel (DMC) with the help of a relay, termed the information bottleneck (IB) channel. There is no direct link between the source and the destination, and the information flows in two hops. The first hop is a noisy channel from the source to the relay. The second hop is a noiseless but limited-capacity backhaul link from the relay to the decoder. We further assume that the relay is oblivious to the transmission codebook. We examine two mismatch scenarios. In the first setting, we assume the decoder is restricted to use some fixed decoding rule, which is mismatched to the actual channel. In the second setting, we assume that the relay is restricted to use some fixed compression metric, which is again mismatched to the statistics of the relay input. We establish bounds on the random-coding capacity of both settings, some of which are shown to be ensemble tight.

AB - We consider the problem of reliable communication over a discrete memoryless channel (DMC) with the help of a relay, termed the information bottleneck (IB) channel. There is no direct link between the source and the destination, and the information flows in two hops. The first hop is a noisy channel from the source to the relay. The second hop is a noiseless but limited-capacity backhaul link from the relay to the decoder. We further assume that the relay is oblivious to the transmission codebook. We examine two mismatch scenarios. In the first setting, we assume the decoder is restricted to use some fixed decoding rule, which is mismatched to the actual channel. In the second setting, we assume that the relay is restricted to use some fixed compression metric, which is again mismatched to the statistics of the relay input. We establish bounds on the random-coding capacity of both settings, some of which are shown to be ensemble tight.

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M3 - منشور من مؤتمر

T3 - IEEE International Symposium on Information Theory - Proceedings

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On Mismatched Oblivious Relaying

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