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Erschienen in:
State-of-the-Art in Chipless-RFID Technology Kapitel lesen Erstes Kapitel lesen

2020 | OriginalPaper | Buchkapitel

3. System Requirements for Industrial Scenarios and Applications

verfasst von : Ferran Martín, Cristian Herrojo, Javier Mata-Contreras, Ferran Paredes

Erschienen in: Time-Domain Signature Barcodes for Chipless-RFID and Sensing Applications

Verlag: Springer International Publishing

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Abstract

In the previous chapter, the working principle and several examples of chipless-RFID systems based on time-domain signature barcodes were reported. It was shown that an unprecedented number of bits (only limited by tag size) is achievable with these systems, at the expense of tag reading by proximity (through near-field coupling with the reader) and proper alignment between the tag and the reader.

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Vorheriges Kapitel Time-Domain Signature Near-Field Chipless-RFID Systems
Nächstes Kapitel Microwave Rotary Encoders
Fußnoten
1
Note that with synchronous tag reading, the relative velocity between the tag and the reader does not need to be constant.
 
2
Such combiner/diplexer scheme is also used in Chapter 4 to discern the velocity from the direction of motion in microwave rotary encoders. Interested readers are recommended to read Chapter 4.
 
Literatur
1.
Preradovic S, Balbin I, Karmakar NC, Swiegers GF (2009) Multiresonator-based chipless RFID system for low-cost item tracking. IEEE Trans Microw Theory Techn 57:1411–1419CrossRef
2.
Herrojo C, Mata-Contreras J, Paredes F, Martín F (2017) High data density and capacity in chipless radiofrequency identification (chipless-RFID) tags based on double-chains of s-shaped split ring resonators (S-SRRs). EPJ Appl Metamat 4: 8–6CrossRef
3.
Herrojo C, Mata-Contreras J, Paredes F, Martín F (2017) Near-field chipless RFID system with high data capacity for security and authentication applications. IEEE Trans Microw Theory Techn 65(12):5298–5308CrossRef
4.
Herrojo C, Muela F, Mata-Contreras J, Paredes F, Martín F (2019) High-density microwave encoders for motion control and near-field chipless-RFID. IEEE Sens J 19:3673–3682CrossRef
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Havlicek J, Herrojo C, Mata-Contreras J, Paredes F, Martín F (2018) Stub-loaded microstrip line loaded with half-wavelength resonators and application to near-field chipless-RFID. In: IEEE-MTT-S LatinoAmerica microwace conference (LAMC’2018). Arequipa, Peru, Dec. 2018
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Havlicek J, Herrojo C, Paredes F, Martín F (2019) Enhancing the data density in near-field chipless-RFID systems with sequential bit reading. IEEE Antennas Wirel Propag Lett 18: 89–92
7.
Herrojo C, Mata-Contreras J, Paredes F, Núñez A, Ramon E, Martín F (2018) Near-field chipless-RFID system with erasable/programmable 40-bit tags inkjet printed on paper substrates. IEEE Microw Wireless Compon Lett 28:272–274CrossRef
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Herrojo C, Moras M, Paredes F, Mata-Contreras J, Núñez A, Ramon E, Martín F (2018) Erasable/programmable chipless-RFID tags with orientation-independent sequential bit reading. In: 2018 Spanish URSI conference, Granada, Spain, Sept 2018
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Vena A, Perret E, Tedjini S (2011) Chipless RFID tag using hybrid coding technique. IEEE Trans Microw Theory Techn 59:3356–3364CrossRef
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Herrojo C, Paredes F, Mata-Contreras J, Zuffanelli S, Martín F (2017) Multi-state multi-resonator spectral signature barcodes implemented by means of s-shaped split ring resonators (S-SRR). IEEE Trans Microw Theory Techn 65(7):2341–2352CrossRef
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Herrojo C, Mata-Contreras J, Paredes F, Núñez A, Ramón E, Martín F (2017) Near-field chipless-RFID tags with sequential bit reading implemented in plastic substrates. In: Moscow international symposium on magnetism (MISM’17), Moscow, Russia, 1–5 July 2017
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Herrojo C, Mata-Contreras J, Paredes F, Núñez A, Ramón E, Martín F (2018) Near-field chipless-RFID tags with sequential bit reading implemented in plastic substrates. J Magn Magn Mater 459:322–327CrossRef
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Herrojo C, Mata-Contreras J, Paredes F, Núñez A, Ramon E, Martín F (2018) Very low-cost 80-bit chipless-RFID tags inkjet printed on ordinary paper. Technol 6(2):52
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Herrojo C, Mata-Contreras J, Paredes F, Martín F (2017) Near-field chipless RFID encoders with sequential bit reading and high data capacity. In: IEEE MTT-S international microwave symposium (IMS’17), Honolulu, Hawaii, June 2017
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Paredes F, Herrojo C, Martin F (2019) An approach for synchronous reading of near-field chipless-RFID tags. In: 10th IEEE international conference on RFID technology and applications (IEEE RFID-TA 2019), Pisa, Italy, Sep 2019, pp 25–27
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Horestani AK, Naqui J, Abbott D, Fumeaux C, Martín F (2014) Two-dimensional displacement and alignment sensor based on reflection coefficients of open microstrip lines loaded with split ring resonators. Electron Lett 50(8):620–622CrossRef
23.
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Metadaten
Titel
System Requirements for Industrial Scenarios and Applications
verfasst von
Ferran Martín
Cristian Herrojo
Javier Mata-Contreras
Ferran Paredes
Copyright-Jahr
2020
Buch
Time-Domain Signature Barcodes for Chipless-RFID and Sensing Applications

Print ISBN: 978-3-030-39725-8

Electronic ISBN: 978-3-030-39726-5

Copyright-Jahr: 2020

DOI
https://doi.org/10.1007/978-3-030-39726-5_3

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