支持全双工反向散射的瞬时反馈

Proceedings of the 20th annual international conference on Mobile computing and networking Pub Date : 2014-09-07 DOI:10.1145/2639108.2639136

Vincent Liu, V. Talla, Shyamnath Gollakota

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引用次数: 81

摘要

本文介绍了首个在无电池背散射器件上实现全双工通信的设计。具体来说，它为接收器提供了一种方式，可以在与反向散射传输相同的频率上向发射器提供低速率反馈，而无需使用多个天线或耗能的对消硬件。我们的设计仅使用功耗接近于零的全无源模拟元件实现了这一目标。我们将我们的设计与反向散射网络堆栈集成在一起，并证明它可以最大限度地减少由于碰撞而产生的能量浪费，并且还可以以比数据包更小的粒度纠正信道条件中的错误和变化。为了证明我们设计的可行性，我们使用现成的模拟组件构建了一个硬件原型。我们的评估表明，我们的设计消除了自干扰到噪声底，而发射和接收功率分别仅消耗0.25 μW和0.54 μW。

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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Enabling instantaneous feedback with full-duplex backscatter

This paper introduces the first design that enables full-duplex communication on battery-free backscatter devices. Specifically, it gives receivers a way to provide low-rate feedback to the transmitter on the same frequency as that of the backscatter transmissions, using neither multiple antennas nor power-consuming cancellation hardware. Our design achieves this goal using only fully-passive analog components that consume near-zero power. We integrate our design with the backscatter network stack and demonstrate that it can minimize energy wastes that occur due to collisions and also correct for errors and changes in channel conditions at a granularity smaller than that of a packet. To show the feasibility of our design, we build a hardware prototype using off-the-shelf analog components. Our evaluation shows that our design cancels the self-interference down to the noise floor, while consuming only 0.25 μW and 0.54 μW of transmit and receive power, respectively.

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Proceedings of the 20th annual international conference on Mobile computing and networking

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