Time-Hopping Multiple-Access for Backscatter Interference Networks
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Liu, Wanchun
Huang, Kaibin
Zhou, Xiangyun
Durrani, Salman
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Institute of Electrical and Electronics Engineers (IEEE)
Abstract
Future Internet-of-Things (IoT) is expected to
wirelessly connect tens of billions of low-complexity devices.
Extending the finite battery life of massive number of IoT
devices is a crucial challenge. The ultra-low-power backscatter
communications (BackCom) with the inherent feature of RF
energy harvesting is a promising technology for tackling this
challenge. Moreover, many future IoT applications will require
the deployment of dense IoT devices, which induces strong
interference for wireless information transfer (IT). To tackle these
challenges, in this paper, we propose the design of a novel
multiple-access scheme based on time-hopping spread-spectrum
(TH-SS) to simultaneously suppress interference and enable both
two-way wireless IT and one-way wireless energy transfer (ET) in
coexisting backscatter reader-tag links. The performance analysis
of the BackCom network is presented, including the bit-error
rates for forward and backward IT and the expected energytransfer
rate for forward ET, which account for non-coherent and
coherent detection at tags and readers, and energy harvesting at
tags, respectively. Our analysis demonstrates a tradeoff between
energy harvesting and interference performance. Thus, system
parameters need to be chosen carefully to satisfy given BackCom
system performance requirement.
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Author/s Accepted Manuscript (AAM) / Post-print