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Autori principali: Abrudan, Traian E., Patel, Kartik, Kimionis, John, Esmaeilbeig, Tara, Kampianakis, Eleftherios, Liyanaarachchi, Sahan Damith, Eggleston, Michael
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2509.12954
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author Abrudan, Traian E.
Patel, Kartik
Kimionis, John
Esmaeilbeig, Tara
Kampianakis, Eleftherios
Liyanaarachchi, Sahan Damith
Eggleston, Michael
author_facet Abrudan, Traian E.
Patel, Kartik
Kimionis, John
Esmaeilbeig, Tara
Kampianakis, Eleftherios
Liyanaarachchi, Sahan Damith
Eggleston, Michael
contents This paper provides a comprehensive analysis and theoretical foundation for next-generation backscatter networks that move beyond communication and integrate RF location sensing capabilities. An end-to-end system model for wideband OFDM backscatter systems is derived, including detailed characterization of propagation channels, receiver chain impairments, RF tag operation, and unsynchronized network nodes. The theoretical system model is validated through experimental evaluation using actual hardware, demonstrating the detailed model's accuracy. A practical bistatic ranging method that can operate with unsynchronized nodes is presented, along with the Cramér-Rao Lower Bound (CRLB) derived to show the achievable performance limits. Our experimental results demonstrate the system performance for communication, RF sensing, and ranging, while also benchmarking against the derived theoretical limits. This analytical framework and experimental validation establish fundamental understanding of distributed, unsynchronized backscatter systems for future machine-type communication networks that are deployed in massive scale, while remaining energy-efficient.
format Preprint
id arxiv_https___arxiv_org_abs_2509_12954
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Next-Generation Backscatter Networks for Integrated Communications and RF Sensing
Abrudan, Traian E.
Patel, Kartik
Kimionis, John
Esmaeilbeig, Tara
Kampianakis, Eleftherios
Liyanaarachchi, Sahan Damith
Eggleston, Michael
Signal Processing
H.1.1
This paper provides a comprehensive analysis and theoretical foundation for next-generation backscatter networks that move beyond communication and integrate RF location sensing capabilities. An end-to-end system model for wideband OFDM backscatter systems is derived, including detailed characterization of propagation channels, receiver chain impairments, RF tag operation, and unsynchronized network nodes. The theoretical system model is validated through experimental evaluation using actual hardware, demonstrating the detailed model's accuracy. A practical bistatic ranging method that can operate with unsynchronized nodes is presented, along with the Cramér-Rao Lower Bound (CRLB) derived to show the achievable performance limits. Our experimental results demonstrate the system performance for communication, RF sensing, and ranging, while also benchmarking against the derived theoretical limits. This analytical framework and experimental validation establish fundamental understanding of distributed, unsynchronized backscatter systems for future machine-type communication networks that are deployed in massive scale, while remaining energy-efficient.
title Next-Generation Backscatter Networks for Integrated Communications and RF Sensing
topic Signal Processing
H.1.1
url https://arxiv.org/abs/2509.12954