Bending Assessment and On-body Investigation of a Textile Antenna for Body-Centric Wireless Communication Applications

This article presents the design and investigation of a textile-based antenna for body wireless communication applications. The Christmas tree structure inspired the antenna design, and a staircase-like defective ground element supported it. The antenna is tiny with a footprint of 30×20×1 mm 3 and i...

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Published in	IOP conference series. Materials Science and Engineering Vol. 1258; no. 1; pp. 12053 - 12060
Main Authors	Sandeep, D Ram, Khan, Habibulla, Madhav, B T P, Gayathri, M, Priyatham, A Kalyana, Nikhilvarma, M, Kumar, S Chandra Sekhar, Salma, S
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.10.2022
Subjects	Antenna design Antennas Bending conductive copper tape Design defects ISM and X-bands Moisture effects polyester fabric Substrates Superhigh frequencies Telemetry Textile antenna Wireless communications
Online Access	Get full text
ISSN	1757-8981 1757-899X
DOI	10.1088/1757-899X/1258/1/012053

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Abstract	This article presents the design and investigation of a textile-based antenna for body wireless communication applications. The Christmas tree structure inspired the antenna design, and a staircase-like defective ground element supported it. The antenna is tiny with a footprint of 30×20×1 mm 3 and is developed on polyester fabric. This material has good grades of flexibility and has the most negligible affinity to moisture, so it was chosen as a suitable substrate for the developed wearable antenna. The radiating elements and grounds conductivity is actualised using the adhesive conductive copper tape. The propounded antenna operates in a treble band of Telemetry, Industrial Scientific and Medical (ISM), and X-band at 4.5, 5.8, and 8 GHz frequencies. The developed textile antenna is intended for body applications, so it was methodically examined by bending it at various vertical and horizontal bending angles. This analysis shows that the antenna’s resonating frequencies are not substantially varied in the vertical and horizontal bending aspects. The antennas on body performance were also examined by placing the prototype directly on the subject’s skin. These results confirm the developed antennas’ applicability for body wireless communication applications.
AbstractList	This article presents the design and investigation of a textile-based antenna for body wireless communication applications. The Christmas tree structure inspired the antenna design, and a staircase-like defective ground element supported it. The antenna is tiny with a footprint of 30×20×1 mm3 and is developed on polyester fabric. This material has good grades of flexibility and has the most negligible affinity to moisture, so it was chosen as a suitable substrate for the developed wearable antenna. The radiating elements and grounds conductivity is actualised using the adhesive conductive copper tape. The propounded antenna operates in a treble band of Telemetry, Industrial Scientific and Medical (ISM), and X-band at 4.5, 5.8, and 8 GHz frequencies. The developed textile antenna is intended for body applications, so it was methodically examined by bending it at various vertical and horizontal bending angles. This analysis shows that the antenna’s resonating frequencies are not substantially varied in the vertical and horizontal bending aspects. The antennas on body performance were also examined by placing the prototype directly on the subject’s skin. These results confirm the developed antennas’ applicability for body wireless communication applications. This article presents the design and investigation of a textile-based antenna for body wireless communication applications. The Christmas tree structure inspired the antenna design, and a staircase-like defective ground element supported it. The antenna is tiny with a footprint of 30×20×1 mm 3 and is developed on polyester fabric. This material has good grades of flexibility and has the most negligible affinity to moisture, so it was chosen as a suitable substrate for the developed wearable antenna. The radiating elements and grounds conductivity is actualised using the adhesive conductive copper tape. The propounded antenna operates in a treble band of Telemetry, Industrial Scientific and Medical (ISM), and X-band at 4.5, 5.8, and 8 GHz frequencies. The developed textile antenna is intended for body applications, so it was methodically examined by bending it at various vertical and horizontal bending angles. This analysis shows that the antenna’s resonating frequencies are not substantially varied in the vertical and horizontal bending aspects. The antennas on body performance were also examined by placing the prototype directly on the subject’s skin. These results confirm the developed antennas’ applicability for body wireless communication applications.
Author	Gayathri, M Sandeep, D Ram Priyatham, A Kalyana Kumar, S Chandra Sekhar Khan, Habibulla Madhav, B T P Salma, S Nikhilvarma, M
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Cites_doi	10.1109/LAWP.2019.2943535 10.1080/03772063.2020.1787877 10.1109/TAP.2019.2902632 10.3390/s16060938 10.1177/1528083717690610 10.1109/LAWP.2017.2766201 10.1177/0040517518770682 10.3390/s19102312 10.1109/LAWP.2013.2297698 10.1002/mmce.22401 10.1007/s00542-018-4068-y 10.1109/LAWP.2018.2868477 10.4236/ojapr.2021.92002 10.1007/s11664-020-08536-6
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SubjectTerms	Antenna design Antennas Bending conductive copper tape Design defects ISM and X-bands Moisture effects polyester fabric Substrates Superhigh frequencies Telemetry Textile antenna Wireless communications
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Title	Bending Assessment and On-body Investigation of a Textile Antenna for Body-Centric Wireless Communication Applications
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