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Autori principali: Reniers, Mathieu, Willame, Martin, Louveaux, Jérôme, Vandendorpe, Luc
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2601.15785
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author Reniers, Mathieu
Willame, Martin
Louveaux, Jérôme
Vandendorpe, Luc
author_facet Reniers, Mathieu
Willame, Martin
Louveaux, Jérôme
Vandendorpe, Luc
contents Integrating Sensing and Communications (ISAC) has emerged as a promising paradigm for Sixth Generation (6G) and Wi-Fi 7 networks, with the communication-centric approach being particularly attractive due to its compatibility with current standards. Typical communication signals comprise both deterministic known pilot signals and random unknown data payloads. Most existing approaches either rely solely on pilots for positioning, thereby ignoring the radar information present in the received data symbols that constitute the majority of each frame, or rely on data decisions, which bounds positioning performance to that of the communication system. To overcome these limitations, we propose a novel method that extracts positioning information from data payloads without decoding them. We consider an opportunistic scenario in which communication signals from a user are captured by a passive radar equipped with a uniform linear array of antennas. We show that, in this setting, the estimation can be efficiently implemented using Fast Fourier Transforms. Finally, we demonstrate superior localization performance compared to existing methods in the literature through numerical simulations.
format Preprint
id arxiv_https___arxiv_org_abs_2601_15785
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Joint Pilot and Unknown Data-based Localization for OFDM Opportunistic Radar Systems
Reniers, Mathieu
Willame, Martin
Louveaux, Jérôme
Vandendorpe, Luc
Signal Processing
Integrating Sensing and Communications (ISAC) has emerged as a promising paradigm for Sixth Generation (6G) and Wi-Fi 7 networks, with the communication-centric approach being particularly attractive due to its compatibility with current standards. Typical communication signals comprise both deterministic known pilot signals and random unknown data payloads. Most existing approaches either rely solely on pilots for positioning, thereby ignoring the radar information present in the received data symbols that constitute the majority of each frame, or rely on data decisions, which bounds positioning performance to that of the communication system. To overcome these limitations, we propose a novel method that extracts positioning information from data payloads without decoding them. We consider an opportunistic scenario in which communication signals from a user are captured by a passive radar equipped with a uniform linear array of antennas. We show that, in this setting, the estimation can be efficiently implemented using Fast Fourier Transforms. Finally, we demonstrate superior localization performance compared to existing methods in the literature through numerical simulations.
title Joint Pilot and Unknown Data-based Localization for OFDM Opportunistic Radar Systems
topic Signal Processing
url https://arxiv.org/abs/2601.15785