Journal
2023 IEEE RADIO AND ANTENNA DAYS OF THE INDIAN OCEAN, RADIO
Volume -, Issue -, Pages -Publisher
IEEE
DOI: 10.1109/RADIO58424.2023.10146062
Keywords
-
Ask authors/readers for more resources
In this paper, the depolarizing Chipless RFID tags based on double-slit split-ring resonators (DSSRR) with single-layer and dual-layer configurations are investigated. The single-layer tag design can exhibit three resonant dips in the cross-polar spectrum with a thin substrate layer. The dual-layer tag design demonstrates four resonant peaks, enabling robust detection on absorptive or reflective platforms in a dynamic environment. An on-body experiment is performed to validate the wearability of the dual-layer tag. Both tags are fabricated through a fully printed process, which is cost-effective and suitable for mass manufacturing.
In this paper, depolarizing Chipless RFID tags based on double-slit split-ring resonators (DSSRR) with single-layer and dual-layer configurations are investigated. Single-layer tag design could show three resonant dips in the cross-polar spectrum with a thin substrate layer. The designed dual-layer tag demonstrates four resonant peaks, which could achieve robust detection when attached to an absorptive or reflective platforms in a dynamic environment. An on-body experiment for the dual-layer tag is performed to validate its wearability. Both designed tags are fabricated through fully printed process, which is low-cost and suitable for the mass manufacturing.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available