Caihui Du and Jihong Yu, Beijing Institute of Technology; Rongrong Zhang, Capital Normal University; Ju Ren, Tsinghua University; Jianping An, Beijing Institute of Technology
The existing ambient backscatter systems suffer from either more spectrum utilization or low throughput. we propose Orthcatter, the first in-band OFDM backscatter system that provides a higher throughput while consuming fewer spectrum resources. Our key innovation is the designed over-the-air code division technique that enables the cancellation of the co-channel interferences, solving the core challenge of the in-band backscatter communication. Unlike the common code-division systems that generate orthogonal codewords locally, we construct the quasi-orthogonal backscatter codewords by swapping the subcarriers of each excitation OFDM symbol and concrete this design passively with a double side-band symbol construction method. Armed with these quasi-orthogonal codewords, we design a two-step interference cancellation scheme, significantly improving reliability. We prototype and test Orthcatter. The results show that Orthcatter can achieve throughput of 248kbps and a BER of 10^-4 under OFDM WiFi exciter, improving by over 4.6× and 300× compared with the state-of-the-art in-band backscatter system. Our throughput and BER can even be 11kbps higher and 59× better than the prior side-band backscatter systems, and the exciter-to-tag communication range is 3× of prior OFDM backscatter systems.
NSDI '24 Open Access Sponsored by
King Abdullah University of Science and Technology (KAUST)
Open Access Media
USENIX is committed to Open Access to the research presented at our events. Papers and proceedings are freely available to everyone once the event begins. Any video, audio, and/or slides that are posted after the event are also free and open to everyone. Support USENIX and our commitment to Open Access.
author = {Caihui Du and Jihong Yu and Rongrong Zhang and Ju Ren and Jianping An},
title = {Orthcatter: High-throughput In-band {OFDM} Backscatter with {Over-the-Air} Code Division},
booktitle = {21st USENIX Symposium on Networked Systems Design and Implementation (NSDI 24)},
year = {2024},
isbn = {978-1-939133-39-7},
address = {Santa Clara, CA},
pages = {1301--1314},
url = {https://www.usenix.org/conference/nsdi24/presentation/du},
publisher = {USENIX Association},
month = apr
}