Litcius/Paper detail

NFC+

Renjie Zhao, Purui Wang, Yunfei Ma, Pengyu Zhang, Hongqiang Harry Liu, Xianshang Lin, Xinyu Zhang, Chenren Xu, Ming Zhang

202026 citationsDOIOpen Access PDF

Abstract

Current UHF RFID systems suffer from two long-standing problems: 1) miss-reading non-line-of-sight or misoriented tags and 2) cross-reading undesired, distant tags due to multi-path reflections. This paper proposes a novel system, NFC+, to overcome the fundamental challenges. NFC+ is a magnetic field reader, which can inventory standard NFC tagged objects with a reasonably long range and arbitrary orientation. NFC+ achieves this by leveraging physical and algorithmic techniques based on magnetic resonance engineering. We build a prototype of NFC+ and conduct extensive evaluations in a logistic network. Comparing to UHF RFID, we find that NFC+ can reduce the miss-reading rate from 23% to 0.03%, and cross-reading rate from 42% to 0, for randomly oriented objects. NFC+ demonstrates high robustness for RFID unfriendly media (e.g., water bottles and metal cans). It can reliably read commercial NFC tags at a distance of up to 3 meters which, for the first time, enables NFC to be directly applied to practical logistics network applications.

Topics & Concepts

Computer scienceUltra high frequencyNear field communicationRobustness (evolution)Reading (process)Computer hardwareTelecommunicationsLawBiochemistryChemistryPolitical scienceGeneRFID technology advancementsFull-Duplex Wireless CommunicationsEnergy Harvesting in Wireless Networks
NFC+ | Litcius