Double-decker: Productive Backscatter Communication Using a Single Commodity Receiver

TL;DR

Double-decker introduces a single-receiver backscatter system that divides OFDM symbols into pilot and data parts, enabling effective tag data demodulation without dual receivers, thus simplifying deployment.

Contribution

It presents a novel backscatter communication method using only one commercial device by dividing OFDM symbols, eliminating the need for dual receivers.

Findings

Achieves 35.2 kbps tag data rate with 802.11g signals

Supports up to 28 meters in LOS and 24 meters in NLOS

Demonstrates effective single-receiver backscatter communication

Abstract

Backscatter communication has attracted significant attention for Internet-of-Things applications due to its ultra-low-power consumption. The state-of-the-art backscatter systems no longer require dedicated carrier generators and leverage ambient signals as carriers. However, there is an emerging challenge: most prior systems need dual receivers to capture the original and backscattered signals at the same time for tag data demodulation. This is not conducive to the widespread deployment of backscatter communication. To address this problem, we present double-decker, a novel backscatter system that only requires a single commercial device for backscatter communication. The key technology of double-decker is to divide the carrier OFDM symbols into two parts, which are pilot symbols and data symbols. Pilot symbols can be used as reference signals for tag data demodulation, thus getting rid of the dependence on the dual receiver structure. We have built an FPGA prototype and conducted extensive experiments. Empirical results show that when the excitation signal is 802.11g, double-decker achieves a tag data rate of 35.2kbps and a productive data rate of 38kbps, respectively. The communication range of double-decker is up to 28m in LOS deployment and 24m in NLOS deployment.