Abstract
The inadequacy of the traditional, digitally encoded RFID tags in combating counterfeiting prompts us to investigate new hardware-enabled technologies that can complement the remote identification functionality of typical RFIDs in an effective and very low cost way. In this paper, we present RFID-CoA; a system that aims to render typical RFID tags physically unique and hard to near-exactly replicate by complementing them with random 3D scattering structures, which serve as certificates of authenticity (CoA). The unique near-field response, or "fingerprint", of the CoAs is extracted as a set of S21 curves by our reader prototype, the design and development details of which are discussed. The results of our performance analysis show that the intersection probability of the false positive and false negative error probability curves is inconceivably small (-200). The RFID-CoA tag's lifecycle from fabrication site to store is presented, and a strategy to block potential attacks is discussed. Our system bridges the world of RFID with a large array of anti-counterfeiting applications by exploiting "hardware-enabled", modified-material scattering characteristics in the near-field. Based on our multifaceted analysis, we firmly believe that the demonstrated RFID-CoA technology can prove a valuable tool for the low-cost ubiquitous applicability of RFID technology against counterfeiting.
Original language | English |
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Title of host publication | 2011 IEEE International Conference on RFID, RFID 2011 |
Pages | 207-214 |
Number of pages | 8 |
DOIs | |
Publication status | Published - 2011 |
Publication type | A4 Article in conference proceedings |
Event | 2011 5th IEEE International Conference on RFID, RFID 2011 - Orlando, FL, United States Duration: 12 Apr 2011 → 14 Apr 2011 |
Conference
Conference | 2011 5th IEEE International Conference on RFID, RFID 2011 |
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Country/Territory | United States |
City | Orlando, FL |
Period | 12/04/11 → 14/04/11 |
Keywords
- antenna array
- anti-counterfeiting
- near-field
- RF certificate of authenticity
- RF fingerprint
- RFID
- wireless
ASJC Scopus subject areas
- Computer Networks and Communications
- Electrical and Electronic Engineering