Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors

Shuvashis Dey; Nemai Chandra Karmakar

Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors

Electrical and Computer Systems Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

Abstract

This paper focuses on the design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. A number of printed monopole and dipole antennas are designed and their structural deformation due to different types of applied strain is theoretically analyzed. This theoretical deformation results are used to calculate the corresponding resonance frequency and quality factor deviation to determine the maximum amount of strain the antennas can handle. Thus a novel analysis is presented to determine the acceptability of the designed antennas as strain sensors.

Original language	English
Title of host publication	2015 International Symposium on Antennas & Propagation (ISAP)
Subtitle of host publication	Hobart, Tasmania, Australia, 9-12 November 2015 [proceedings]
Editors	Christophe Fumeaux, Ananda Mohan Sanagavarapu, Karu Esselle, Amin Abbosh
Place of Publication	Piscataway NJ USA
Publisher	IEEE, Institute of Electrical and Electronics Engineers
Number of pages	4
ISBN (Electronic)	9784885523021
ISBN (Print)	9784885523038, 9781479953615
Publication status	Published - 2015
Event	IEEE International Symposium on Antennas and Propagation 2015 - Wrest Point Hotel, Hobart, Australia Duration: 9 Nov 2015 → 12 Nov 2015 https://ieeexplore.ieee.org/xpl/conhome/7442673/proceeding (Proceedings)

Conference

Conference	IEEE International Symposium on Antennas and Propagation 2015
Abbreviated title	ISAP 2015
Country	Australia
City	Hobart
Period	9/11/15 → 12/11/15
Internet address	https://ieeexplore.ieee.org/xpl/conhome/7442673/proceeding (Proceedings)

Keywords

Structural Health Monitoring
Chipless RFID
Strain
Planar antenna
Monopole
Opposite Bent Dipole

Access to Document

Cite this

Dey, S., & Karmakar, N. C. (2015). Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. In C. Fumeaux, A. M. Sanagavarapu, K. Esselle, & A. Abbosh (Eds.), 2015 International Symposium on Antennas & Propagation (ISAP): Hobart, Tasmania, Australia, 9-12 November 2015 [proceedings] IEEE, Institute of Electrical and Electronics Engineers. http://ieeexplore.ieee.org/document/7447527/

Dey, Shuvashis ; Karmakar, Nemai Chandra. / Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. 2015 International Symposium on Antennas & Propagation (ISAP): Hobart, Tasmania, Australia, 9-12 November 2015 [proceedings]. editor / Christophe Fumeaux ; Ananda Mohan Sanagavarapu ; Karu Esselle ; Amin Abbosh. Piscataway NJ USA : IEEE, Institute of Electrical and Electronics Engineers, 2015.

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title = "Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors",

abstract = "This paper focuses on the design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. A number of printed monopole and dipole antennas are designed and their structural deformation due to different types of applied strain is theoretically analyzed. This theoretical deformation results are used to calculate the corresponding resonance frequency and quality factor deviation to determine the maximum amount of strain the antennas can handle. Thus a novel analysis is presented to determine the acceptability of the designed antennas as strain sensors.",

keywords = "Structural Health Monitoring, Chipless RFID, Strain, Planar antenna, Monopole, Opposite Bent Dipole",

author = "Shuvashis Dey and Karmakar, {Nemai Chandra}",

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booktitle = "2015 International Symposium on Antennas & Propagation (ISAP)",

publisher = "IEEE, Institute of Electrical and Electronics Engineers",

address = "United States of America",

note = "IEEE International Symposium on Antennas and Propagation 2015, ISAP 2015 ; Conference date: 09-11-2015 Through 12-11-2015",

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Dey, S & Karmakar, NC 2015, Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. in C Fumeaux, AM Sanagavarapu, K Esselle & A Abbosh (eds), 2015 International Symposium on Antennas & Propagation (ISAP): Hobart, Tasmania, Australia, 9-12 November 2015 [proceedings]. IEEE, Institute of Electrical and Electronics Engineers, Piscataway NJ USA, IEEE International Symposium on Antennas and Propagation 2015, Hobart, Australia, 9/11/15. <http://ieeexplore.ieee.org/document/7447527/>

Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. / Dey, Shuvashis ; Karmakar, Nemai Chandra.

2015 International Symposium on Antennas & Propagation (ISAP): Hobart, Tasmania, Australia, 9-12 November 2015 [proceedings]. ed. / Christophe Fumeaux; Ananda Mohan Sanagavarapu; Karu Esselle; Amin Abbosh. Piscataway NJ USA : IEEE, Institute of Electrical and Electronics Engineers, 2015.

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

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AB - This paper focuses on the design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. A number of printed monopole and dipole antennas are designed and their structural deformation due to different types of applied strain is theoretically analyzed. This theoretical deformation results are used to calculate the corresponding resonance frequency and quality factor deviation to determine the maximum amount of strain the antennas can handle. Thus a novel analysis is presented to determine the acceptability of the designed antennas as strain sensors.

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Dey S , Karmakar NC. Design and feasibility analysis of conventional planar antennas as chipless RFID strain sensors. In Fumeaux C, Sanagavarapu AM, Esselle K, Abbosh A, editors, 2015 International Symposium on Antennas & Propagation (ISAP): Hobart, Tasmania, Australia, 9-12 November 2015 [proceedings]. Piscataway NJ USA: IEEE, Institute of Electrical and Electronics Engineers. 2015