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Hauptverfasser: Shang, Fei, Jiang, Haocheng, Yang, Panlong, Yan, Dawei, Du, Haohua, Li, Xiang-Yang
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2412.05640
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author Shang, Fei
Jiang, Haocheng
Yang, Panlong
Yan, Dawei
Du, Haohua
Li, Xiang-Yang
author_facet Shang, Fei
Jiang, Haocheng
Yang, Panlong
Yan, Dawei
Du, Haohua
Li, Xiang-Yang
contents This paper introduces the design and implementation of WiField, a WiFi sensing system deployed on COTS devices that can simultaneously identify multiple wavelength-level targets placed flexibly. Unlike traditional RF sensing schemes that focus on specific targets and RF links, WiField focuses on all media in the sensing area for the entire electric field. In this perspective, WiField provides a unified framework to finely characterize the diffraction, scattering, and other effects of targets at different positions, materials, and numbers on signals. The combination of targets in different positions, numbers, and sizes is just a special case. WiField proposed a scheme that utilizes phaseless data to complete the inverse mapping from electric field to material distribution, thereby achieving the simultaneous identification of multiple wavelength-level targets at any position and having the potential for deployment on a wide range of low-cost COTS devices. Our evaluation results show that it has an average identification accuracy of over 97% for 1-3 targets (5 cm * 10 cm in size) with different materials randomly placed within a 1.05 m * 1.05 m area.
format Preprint
id arxiv_https___arxiv_org_abs_2412_05640
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The Field-based Model: A New Perspective on RF-based Material Sensing
Shang, Fei
Jiang, Haocheng
Yang, Panlong
Yan, Dawei
Du, Haohua
Li, Xiang-Yang
Signal Processing
This paper introduces the design and implementation of WiField, a WiFi sensing system deployed on COTS devices that can simultaneously identify multiple wavelength-level targets placed flexibly. Unlike traditional RF sensing schemes that focus on specific targets and RF links, WiField focuses on all media in the sensing area for the entire electric field. In this perspective, WiField provides a unified framework to finely characterize the diffraction, scattering, and other effects of targets at different positions, materials, and numbers on signals. The combination of targets in different positions, numbers, and sizes is just a special case. WiField proposed a scheme that utilizes phaseless data to complete the inverse mapping from electric field to material distribution, thereby achieving the simultaneous identification of multiple wavelength-level targets at any position and having the potential for deployment on a wide range of low-cost COTS devices. Our evaluation results show that it has an average identification accuracy of over 97% for 1-3 targets (5 cm * 10 cm in size) with different materials randomly placed within a 1.05 m * 1.05 m area.
title The Field-based Model: A New Perspective on RF-based Material Sensing
topic Signal Processing
url https://arxiv.org/abs/2412.05640