Abstract:
Authenticating RFID-tagged items during mobile inventory, such as entering or leaving the warehouse, is a critical task for anti-counterfeiting. However, past authenticat...View moreMetadata
Abstract:
Authenticating RFID-tagged items during mobile inventory, such as entering or leaving the warehouse, is a critical task for anti-counterfeiting. However, past authentication solutions using commercial off-the-shelf (COTS) devices cannot be applied in mobile scenarios, such as conveyors or tunnels, due to either high latency or non-robustness to tag movement. This paper introduces LoPrint, the first system to effectively authenticate mobile tagged items using the COTS orthogonal antennas existing in most infrastructures. The key insight of LoPrint is to randomly attach multiple tags on each item as a tag group and leverage the stable layout relationships of this tag group as novel fingerprints, including the relative distance matrix (RDM) and relative orientation matrix (ROM). Additionally, a new hardware fingerprint called cross-polarization ratio (CPR) is proposed to help distinguish the tag category. Furthermore, a lightweight approach is designed to robustly extract RDM, ROM, and CPR from RSSI and phase sequences under various environmental factors. LoPrint is prototyped and deployed on a conveyor in a lab environment and a tunnel in a real-world RFID warehouse, where 726 tagged items with random layouts are used for evaluation. Experimental results show that LoPrint can achieve a high authentication accuracy of 82.92% on the fixed conveyor and 79.48% on the random warehouse trolley when the size of tag group is three, outperforming the transferred stateof-the-art solution by over 10×.
Date of Conference: 20-23 May 2024
Date Added to IEEE Xplore: 12 August 2024
ISBN Information: