A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä
A chipless RFID tag for smart temporal applications
Tekijät: Anum Zahra, Humayun Shahid, Muhammad Ali Riaz, Yasar Amin, Hannu Tenhunen
Kustantaja: WILEY
Julkaisuvuosi: 2018
Journal: International Journal of RF and Microwave Computer-Aided Engineering
Tietokannassa oleva lehden nimi: INTERNATIONAL JOURNAL OF RF AND MICROWAVE COMPUTER-AIDED ENGINEERING
Lehden akronyymi: INT J RF MICROW C E
Artikkelin numero: ARTN e21405
Vuosikerta: 28
Numero: 8
Aloitussivu: 1
Lopetussivu: 12
Sivujen määrä: 12
ISSN: 1096-4290
eISSN: 1099-047X
DOI: https://doi.org/10.1002/mmce.21405
Tiivistelmä
A compact, robust, chipless radio frequency identification (RFID) tag is proposed. Resonant elements patterned in a concentric fashion encode data in the spectral domain employing frequency shift encoding. The proposed tag encodes 28.25 data bits over a miniscule physical footprint of 25 x 25 mm(2). The formulated scheme is demonstrated to be viable for encoding of temporal variables. The electromagnetic performance of the presented design is investigated for different laminates: Rogers RT/duroid (R) 5880 and Taconic TLX-0. Multiple tag prototypes employing a variety of substrates are realized and evaluated for in-laboratory performance. The proposed design is compared with existing work reported in literature. Code density of 4.52 bits/cm(2) has been successfully achieved. The tag design operates from 3.07 to 10.6 GHz and is readily realizable on flexible laminates. Smart retail, intelligent packaging, adaptive ticketing, and similar time-related applications can be materialized using the proposed tag.
A compact, robust, chipless radio frequency identification (RFID) tag is proposed. Resonant elements patterned in a concentric fashion encode data in the spectral domain employing frequency shift encoding. The proposed tag encodes 28.25 data bits over a miniscule physical footprint of 25 x 25 mm(2). The formulated scheme is demonstrated to be viable for encoding of temporal variables. The electromagnetic performance of the presented design is investigated for different laminates: Rogers RT/duroid (R) 5880 and Taconic TLX-0. Multiple tag prototypes employing a variety of substrates are realized and evaluated for in-laboratory performance. The proposed design is compared with existing work reported in literature. Code density of 4.52 bits/cm(2) has been successfully achieved. The tag design operates from 3.07 to 10.6 GHz and is readily realizable on flexible laminates. Smart retail, intelligent packaging, adaptive ticketing, and similar time-related applications can be materialized using the proposed tag.
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