UWB nanocellulose coconut coir fibre inspired antenna for 5G applications
This paper intended to design an Ultra-Wideband (UWB) Antenna for IoT applications that operates within 5G operating frequencies. One of the IoT-based devices architecture is Wireless Body Area Networks (WBAN). WBAN allows computer device to communicate with human body signal by trading digital info...
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Online Access: | http://umpir.ump.edu.my/id/eprint/25389/ http://umpir.ump.edu.my/id/eprint/25389/1/UWB%20nanocellulose%20coconut%20coir%20fibre%20inspired%20antenna%20.pdf |
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ump-253892019-07-16T01:54:23Z http://umpir.ump.edu.my/id/eprint/25389/ UWB nanocellulose coconut coir fibre inspired antenna for 5G applications Syuhaimi, Kassim Hasliza, A. Rahim Malek, Fareq Nur Syahirah, Sabli M. E., Mat Salleh TK Electrical engineering. Electronics Nuclear engineering TP Chemical technology This paper intended to design an Ultra-Wideband (UWB) Antenna for IoT applications that operates within 5G operating frequencies. One of the IoT-based devices architecture is Wireless Body Area Networks (WBAN). WBAN allows computer device to communicate with human body signal by trading digital information such as electrical conductivity. 5G is the state-of-the-art generation mobile communication. A higher data speed it offers will improve data communication efficiency in WBAN system. Two biggest challenge foreseen for the wearable UWB antenna are the physical flexibility and the antenna bandwidth. Since it is a wearable device, the selection of the material is crucial in order to ensure high flexibility and mechanical robustness. The next challenge is to warrant a wideband performance throughout the operating frequency and a trade-off with a high-dielectric in proposed substrate is essential. This paper presents a design and parametric analysis of an antenna using Nanocellulose Fiber Coir substrate with wider bandwidth as compared to 5G frequencies, 10.125 to 10.225 GHz. This paper also exhibits bandwidth improvement with the presence of artificial magnetic conductor (AMC) as a metasurface. A typical UWB patch antenna was initially designed before being integrated with AMC through a parametric sweep analysis. This paper analyzes the frequency, gain, directivity, antenna efficiency before and after optimization. This paper successfully demonstrates a Y-shaped antenna design with coplanar waveguide (CPW) using a thin film Nanocellulose Coconut Fibre Coir as a substrate and the bandwidth improvement by 16.12% with the AMC as a metasurface. IEEE 2019-05-13 Conference or Workshop Item PeerReviewed pdf en http://umpir.ump.edu.my/id/eprint/25389/1/UWB%20nanocellulose%20coconut%20coir%20fibre%20inspired%20antenna%20.pdf Syuhaimi, Kassim and Hasliza, A. Rahim and Malek, Fareq and Nur Syahirah, Sabli and M. E., Mat Salleh (2019) UWB nanocellulose coconut coir fibre inspired antenna for 5G applications. In: 2019 3rd International Conference on Communications, Signal Processing, and their Applications, ICCSPA 2019, 19-21 March 2019 , Sharjah, United Arab Emirates. pp. 1-5. (8713653). ISBN 9781728120850 |
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TK Electrical engineering. Electronics Nuclear engineering TP Chemical technology |
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TK Electrical engineering. Electronics Nuclear engineering TP Chemical technology Syuhaimi, Kassim Hasliza, A. Rahim Malek, Fareq Nur Syahirah, Sabli M. E., Mat Salleh UWB nanocellulose coconut coir fibre inspired antenna for 5G applications |
description |
This paper intended to design an Ultra-Wideband (UWB) Antenna for IoT applications that operates within 5G operating frequencies. One of the IoT-based devices architecture is Wireless Body Area Networks (WBAN). WBAN allows computer device to communicate with human body signal by trading digital information such as electrical conductivity. 5G is the state-of-the-art generation mobile communication. A higher data speed it offers will improve data communication efficiency in WBAN system. Two biggest challenge foreseen for the wearable UWB antenna are the physical flexibility and the antenna bandwidth. Since it is a wearable device, the selection of the material is crucial in order to ensure high flexibility and mechanical robustness. The next challenge is to warrant a wideband performance throughout the operating frequency and a trade-off with a high-dielectric in proposed substrate is essential. This paper presents a design and parametric analysis of an antenna using Nanocellulose Fiber Coir substrate with wider bandwidth as compared to 5G frequencies, 10.125 to 10.225 GHz. This paper also exhibits bandwidth improvement with the presence of artificial magnetic conductor (AMC) as a metasurface. A typical UWB patch antenna was initially designed before being integrated with AMC through a parametric sweep analysis. This paper analyzes the frequency, gain, directivity, antenna efficiency before and after optimization. This paper successfully demonstrates a Y-shaped antenna design with coplanar waveguide (CPW) using a thin film Nanocellulose Coconut Fibre Coir as a substrate and the bandwidth improvement by 16.12% with the AMC as a metasurface. |
format |
Conference or Workshop Item |
author |
Syuhaimi, Kassim Hasliza, A. Rahim Malek, Fareq Nur Syahirah, Sabli M. E., Mat Salleh |
author_facet |
Syuhaimi, Kassim Hasliza, A. Rahim Malek, Fareq Nur Syahirah, Sabli M. E., Mat Salleh |
author_sort |
Syuhaimi, Kassim |
title |
UWB nanocellulose coconut coir fibre inspired antenna for 5G applications |
title_short |
UWB nanocellulose coconut coir fibre inspired antenna for 5G applications |
title_full |
UWB nanocellulose coconut coir fibre inspired antenna for 5G applications |
title_fullStr |
UWB nanocellulose coconut coir fibre inspired antenna for 5G applications |
title_full_unstemmed |
UWB nanocellulose coconut coir fibre inspired antenna for 5G applications |
title_sort |
uwb nanocellulose coconut coir fibre inspired antenna for 5g applications |
publisher |
IEEE |
publishDate |
2019 |
url |
http://umpir.ump.edu.my/id/eprint/25389/ http://umpir.ump.edu.my/id/eprint/25389/1/UWB%20nanocellulose%20coconut%20coir%20fibre%20inspired%20antenna%20.pdf |
first_indexed |
2023-09-18T22:38:57Z |
last_indexed |
2023-09-18T22:38:57Z |
_version_ |
1777416785568464896 |