Towards Programmable Backscatter Radio Design for Heterogeneous Wireless Networks

IF 3 3区计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE/ACM Transactions on Networking Pub Date : 2024-09-17 DOI:10.1109/TNET.2024.3454095

Xiuzhen Guo;Yuan He;Jiacheng Zhang;Yunhao Liu;Longfei Shangguan

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引用次数: 0

Abstract

This paper presents RF-Transformer, a unified backscatter radio hardware abstraction that allows a low-power IoT device to directly communicate with heterogeneous wireless receivers. Unlike existing backscatter systems that are tailored to a specific wireless communication protocol, RF-Transformer provides a programmable interface to the micro-controller, allowing IoT devices to synthesize different types of protocol-compliant backscatter signals in the PHY layer. By leveraging the nonlinear characteristics of the negative impedance, RF-Transformer also achieves a cross-frequency backscatter design that enables IoT devices in harmonic frequency bands to communicate with each other. We implement a PCB prototype of RF-Transformer on 2.4 GHz ISM band and conduct extensive experiments. We leverage the software defined platform USRP to transmit the carrier signal and receive the backscatter signal to verify the efficacy of our design. Our extensive field studies show that RF-Transformer achieves 23.8 Mbps, 247.1 Kbps, 986.5 Kbps, and 27.3 Kbps throughput when generating standard Wi-Fi, ZigBee, Bluetooth, and LoRa signals.

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面向异构无线网络的可编程反向散射无线电设计

本文介绍了RF-Transformer，这是一种统一的反向散射无线电硬件抽象，允许低功耗物联网设备直接与异构无线接收器通信。与现有的针对特定无线通信协议定制的反向散射系统不同，RF-Transformer为微控制器提供了可编程接口，允许物联网设备在物理层合成不同类型的符合协议的反向散射信号。通过利用负阻抗的非线性特性，RF-Transformer还实现了交叉频率反向散射设计，使谐波频段的物联网设备能够相互通信。我们在2.4 GHz ISM频段上实现了RF-Transformer的PCB原型，并进行了大量的实验。我们利用软件定义平台USRP发送载波信号和接收后向散射信号来验证我们设计的有效性。我们广泛的现场研究表明，RF-Transformer在生成标准Wi-Fi， ZigBee，蓝牙和LoRa信号时可实现23.8 Mbps, 247.1 Kbps， 986.5 Kbps和27.3 Kbps的吞吐量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE/ACM Transactions on Networking 工程技术-电信学

CiteScore

8.20

自引率

5.40%

发文量

246

审稿时长

4-8 weeks

期刊介绍： The IEEE/ACM Transactions on Networking’s high-level objective is to publish high-quality, original research results derived from theoretical or experimental exploration of the area of communication/computer networking, covering all sorts of information transport networks over all sorts of physical layer technologies, both wireline (all kinds of guided media: e.g., copper, optical) and wireless (e.g., radio-frequency, acoustic (e.g., underwater), infra-red), or hybrids of these. The journal welcomes applied contributions reporting on novel experiences and experiments with actual systems.