Proceedings ArticleDOI
Design of SIW based Millimeter wave Chipless Identification Tag for Low Cost Application
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TLDR
A novel concept to implement millimeterwave substrate integrated waveguide-based circuits for chipless identification application has been demonstrated and the complete design has been realized in K band making physical size of the circuit very small which makes it attractive for practical application.Abstract:
In this paper, a novel concept to implement millimeterwave substrate integrated waveguide-based circuits for chipless identification application has been demonstrated. The proposed design utilizes a pair of compact half mode SIW cavity to encode the interrogating signal and resend the signal through the open-end aperture of the cavity. Thus, the encoding resonator itself has been utilized as radiator (a)1 of the interrogating signal which helps to improve the compactness of the design. The complete design has been realized in K band making physical size of the circuit very small which makes it attractive for practical application.read more
Citations
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Journal ArticleDOI
A Review of Chipless Remote Sensing Solutions Based on RFID Technology.
TL;DR: It is concluded that although many chipless RFID sensors provide adequate performance characteristics, more work is needed to ensure that this technology is capable/robust enough to operate in many of the applications it has been earmarked for.
Journal ArticleDOI
An 8×8 mm-Wave LP ACMPA Array for a Long-Range mm-Wave Chipless RFID Tag-Sensor Reader
TL;DR: In this paper, a linearly-polarized (LP) aperture-coupled microstrip patch antenna (ACMPA) array is presented for a long-range millimeter (mm)-wave chipless RFID tag-sensor reader.
References
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Journal ArticleDOI
Smart Sensing: Chipless RFID Solutions for the Internet of Everything
TL;DR: The RFID tag has the potential to replace the barcode because of its manifold benefits, including its long reading range and non-line-of-sight reading capability.
Journal ArticleDOI
A novel chipless identification tag based on a substrate integrated cavity resonator
TL;DR: In this article, a novel tag structure for microwave identification is presented based on a high quality factor (Q=366) substrate integrated cavity resonator in which data are encoded by introducing a variation in the effective permittivity which gives a unique and identifiable frequency spectral signature.
Proceedings ArticleDOI
Design of broadband power divider based on Substrate-Integrated Waveguide technology
TL;DR: Design principles for implementation of broadband T-type and Y-type power divider based on Substrate-Integrated Waveguide (SIW) technology has been presented and different design curves have been developed based on simulation results.
Proceedings Article
Chipless millimeter wave identification (MMID) tag at 30 GHz
TL;DR: The chipless MMID tag has the potential of encoding a larger number of data bits with the extension of the operating frequency band it uses and is designed for low cost item tagging and security applications for items such as banknotes and secure documents.
Proceedings Article
4 th generation multiresonator-based chipless RFID tag utilizing spiral EBGs
TL;DR: The 4th generation chipless tag based on multiresonators is presented and a proof-of-concept tag is developed and tested which has 6-bits and operates between 2 – 2.5 GHz.