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Long-range ambient LoRa backscatter with parallel decoding

Jinyan Jiang, Zhenqiang Xu, Fan Dang, Jiliang Wang

202192 citationsDOI

Abstract

LoRa backscatter is a promising technology to achieve low-power and long-distance communication for connecting millions of devices in the Internet of Things. We present P2LoRa, the first ambient LoRa backscatter system with parallel decoding and long-range communication. The high level idea of P2LoRa is to modulate data by shifting ambient LoRa packets with a small frequency. To achieve long distance communication, we enhance the SNR of the backscatter signal by concentrating leaked energy in both the frequency domain and time domain. We propose a method to accurately reconstruct and cancel the in-band excitation signal, which is orders of magnitude higher than the backscatter signal. For parallel decoding, we propose a method to cancel inter-tag interference with very low overhead and address the signal misalignment problem due to different time of flight. We prototype the P2LoRa tag with customized low-cost hardware and implement the P2LoRa gateway on USRP. Through extensive evaluations, we show that P2LoRa achieves a long communication distance of 2.2 km with ambient LoRa, and supports 101 parallel tag transmissions.

Topics & Concepts

Backscatter (email)Decoding methodsComputer scienceUniversal Software Radio PeripheralSIGNAL (programming language)Overhead (engineering)Frequency domainInterference (communication)Default gatewayReal-time computingWirelessTelecommunicationsComputer networkChannel (broadcasting)Programming languageComputer visionOperating systemEnergy Harvesting in Wireless NetworksIoT Networks and ProtocolsAdvanced Wireless Communication Technologies
Long-range ambient LoRa backscatter with parallel decoding | Litcius