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Autores principales: Sahoo, Anirudha, Ropitault, Tanguy, Blandino, Steve, Golmie, Nada
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2403.19825
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author Sahoo, Anirudha
Ropitault, Tanguy
Blandino, Steve
Golmie, Nada
author_facet Sahoo, Anirudha
Ropitault, Tanguy
Blandino, Steve
Golmie, Nada
contents Wi-Fi sensing has been used to detect and track movements in an environment, resulting in the emergence of several innovative applications. Wi-Fi sensing can detect movement and locate objects by analyzing variations in the Wi-Fi signal due to its interaction with moving objects. Until recently, Wi-Fi sensing has been primarily available through proprietary solutions, which has limited its adoption. However, the recent initiative by the IEEE to develop the IEEE 802.11bf standard promises to make the adoption of Wi-Fi sensing widespread. Although Wi-Fi sensing procedures in communication standards can be overhead, there is currently a lack of literature exploring the sensing performance of Wi-Fi sensing procedures specified in the IEEE 802.11bf standard and its impact on data communication. Therefore, this paper presents a comprehensive evaluation of the sensing performance of the IEEE 802.11bf protocol and its impact on data communication in different configurations. Our findings expose the limitations of specific configurations and pave the way to provide guidance on efficient operating configurations of an IEEE 802.11bf network.
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Sensing Performance of the IEEE 802.11bf Protocol and Its Impact on Data Communication
Sahoo, Anirudha
Ropitault, Tanguy
Blandino, Steve
Golmie, Nada
Networking and Internet Architecture
Wi-Fi sensing has been used to detect and track movements in an environment, resulting in the emergence of several innovative applications. Wi-Fi sensing can detect movement and locate objects by analyzing variations in the Wi-Fi signal due to its interaction with moving objects. Until recently, Wi-Fi sensing has been primarily available through proprietary solutions, which has limited its adoption. However, the recent initiative by the IEEE to develop the IEEE 802.11bf standard promises to make the adoption of Wi-Fi sensing widespread. Although Wi-Fi sensing procedures in communication standards can be overhead, there is currently a lack of literature exploring the sensing performance of Wi-Fi sensing procedures specified in the IEEE 802.11bf standard and its impact on data communication. Therefore, this paper presents a comprehensive evaluation of the sensing performance of the IEEE 802.11bf protocol and its impact on data communication in different configurations. Our findings expose the limitations of specific configurations and pave the way to provide guidance on efficient operating configurations of an IEEE 802.11bf network.
title Sensing Performance of the IEEE 802.11bf Protocol and Its Impact on Data Communication
topic Networking and Internet Architecture
url https://arxiv.org/abs/2403.19825