Rate-Reliability Tradeoff for Deterministic Identification over Gaussian Channels
Abstract
We extend the recent analysis of the rate-reliability tradeoff in deterministic identification (DI) to general linear Gaussian channels, marking the first such analysis for channels with continuous output. Because DI provides a framework that can substantially enhance communication efficiency, and since the linear Gaussian model underlies a broad range of physical communication systems, our results offer both theoretical insights and practical relevance for the performance evaluation of DI in future networks. Moreover, the structural parallels observed between the Gaussian and discrete-output cases suggest that similar rate-reliability behaviour may extend to wider classes of continuous channels.
Keywords
Cite
@article{arxiv.2602.12182,
title = {Rate-Reliability Tradeoff for Deterministic Identification over Gaussian Channels},
author = {Pau Colomer and Christian Deppe and Holger Boche and Andreas Winter},
journal= {arXiv preprint arXiv:2602.12182},
year = {2026}
}
Comments
10 pages, 1 figure. The first half of this preprint will be presented at the 2026 IEEE International Conference on Communications, Glasgow, 24-28 May 2026