Related papers: Spectrum Shortage for Radio Sensing? Leveraging Ambient 5G Signals for Human Activity Detection

Spectrum Shortage for Radio Sensing? Leveraging Ambient 5G Signals for Human Activity Detection

URL: http://arxiv.org/abs/2603.03579v1
Date: Tue, 03 Mar 2026 23:18:03 GMT
Title: Spectrum Shortage for Radio Sensing? Leveraging Ambient 5G Signals for Human Activity Detection
Authors: Kunzhe Song, Maxime Zingraff, Huacheng Zeng,
Abstract summary: Ambient Radio Sensing (ARS) is an ISAC approach that addresses spectrum scarcity by repurposing over-the-air radio signals.<n>ARS operates as a standalone device that passively receives communication signals, amplifies them to illuminate surrounding objects, and captures the reflected signals.<n>We have developed a prototype of ARS and validated its effectiveness through extensive experiments using ambient 5G signals.
Score: 5.225254533678075
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Radio sensing in the sub-10 GHz spectrum offers unique advantages over traditional vision-based systems, including the ability to see through occlusions and preserve user privacy. However, the limited availability of spectrum in this range presents significant challenges for deploying largescale radio sensing applications. In this paper, we introduce Ambient Radio Sensing (ARS), a novel Integrated Sensing and Communications (ISAC) approach that addresses spectrum scarcity by repurposing over-the-air radio signals from existing wireless systems (e.g., 5G and Wi-Fi) for sensing applications, without interfering with their primary communication functions. ARS operates as a standalone device that passively receives communication signals, amplifies them to illuminate surrounding objects, and captures the reflected signals using a self-mixing RF architecture to extract baseband features. This hardware innovation enables robust Doppler and angular feature extraction from ambient OFDM signals. To support downstream applications, we propose a cross-modal learning framework focusing on human activity recognition, featuring a streamlined training process that leverages an off-the-shelf vision model to supervise radio model training. We have developed a prototype of ARS and validated its effectiveness through extensive experiments using ambient 5G signals, demonstrating accurate human skeleton estimation and body mask segmentation applications.

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