English

BeamScatter: Scalable, Deployable Long-Range backscatter communication with Beam-Steering

Signal Processing 2022-10-17 v2

Abstract

WiFi backscatter tags can enable direct connectivity of IoT devices with commodity WiFi hardware at low power. However, most state of the art backscatter tag implementations in this area have limited transmitter to tag range, are not suitable to be deployed in a WiFi mesh network, and do not take full advantage of today's WiFi network capabilities such as MIMO. In this paper, we present BeamScatter, which can realize a backscatter tag based on MIMO techniques that can work at a very long separation of 28m from an access-point and enables their deployment in WiFi mesh networks. BeamScatter presents a novel technique to perform beam-steering on the MIMO tag at a very low power consumption of 88 uW while achieving a peak throughput of 500kbps. Next, BeamScatter creates a novel modeling framework to decide the optimal phase setting on the tag to steer the backscattered signal WiFi access point.

Keywords

Cite

@article{arxiv.2110.14585,
  title  = {BeamScatter: Scalable, Deployable Long-Range backscatter communication with Beam-Steering},
  author = {Manideep Dunna and Shihkai Kuo and Akshit Agarwal and Patrick Mercier and Dinesh Bharadia},
  journal= {arXiv preprint arXiv:2110.14585},
  year   = {2022}
}
R2 v1 2026-06-24T07:14:27.986Z