Litcius/Paper detail

MilliMirror

Kun Qian, Lulu Yao, Xinyu Zhang, Tse Nga Ng

2022Proceedings of the 28th Annual International Conference on Mobile Computing And Networking46 citationsDOIOpen Access PDF

Abstract

Next generation wireless networks embrace mmWave technology for its high capacity. Yet, mmWave radios bear a fundamental coverage limitation due to the high directionality and propagation artifacts. In this paper, we explore an economical paradigm based on 3D printing technology for mmWave coverage expansion. We propose MilliMirror, a fully passive metasurface, which can reshape and resteer mmWave beams to anomalous directions to illuminate the coverage blind spots. We develop a closed-form model to efficiently synthesize the MilliMirror design with thousands of unit elements and across a wide frequency band. We further develop an economical process based on 3D printing and metal deposition to fabricate MilliMirror. Our field test results show that MilliMirror can effectively fill the coverage holes and operate transparently to the standard mmWave beam management protocols.

Topics & Concepts

Computer scienceWirelessKey (lock)Process (computing)Field (mathematics)Electronic engineeringTelecommunicationsEngineeringOperating systemPure mathematicsComputer securityMathematicsAntenna Design and AnalysisMillimeter-Wave Propagation and ModelingAdvanced Wireless Communication Technologies
MilliMirror | Litcius