Focal region ray tracing of dual spherical reflector antenna

5G mobile communications require multibeam base station antenna to operate at millimeter frequency band. Therefore, dual spherical antenna is promising for 5G application. As for achieving high gain, optimum antenna configuration should be found out. In this paper, the focal region ray tracing metho...

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Main Authors:	Arjunaidi, Ayuni Afiqah, Quzwain, Kamelia, Yamada, Yoshihide, Kamardin, Kamilia, Dinh, Nguyen Quoc
Format:	Conference or Workshop Item
Published:	2021
Subjects:	T Technology (General)

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author	Arjunaidi, Ayuni Afiqah Quzwain, Kamelia Yamada, Yoshihide Kamardin, Kamilia Dinh, Nguyen Quoc
author_facet	Arjunaidi, Ayuni Afiqah Quzwain, Kamelia Yamada, Yoshihide Kamardin, Kamilia Dinh, Nguyen Quoc
author_sort	Arjunaidi, Ayuni Afiqah
collection	ePrints
description	5G mobile communications require multibeam base station antenna to operate at millimeter frequency band. Therefore, dual spherical antenna is promising for 5G application. As for achieving high gain, optimum antenna configuration should be found out. In this paper, the focal region ray tracing method is developed. Firstly, analytical equations for the focal region ray tracing are clarified. The key equation of determining the caustic position is then solved by MATLAB program. In addition, some ray tracing results are shown to ensure the usefulness of the developed ray tracing method.
first_indexed	2024-03-05T21:02:45Z
format	Conference or Workshop Item
id	utm.eprints-94375
institution	Universiti Teknologi Malaysia - ePrints
last_indexed	2024-03-05T21:02:45Z
publishDate	2021
record_format	dspace
spelling	utm.eprints-943752022-03-31T15:15:02Z http://eprints.utm.my/94375/ Focal region ray tracing of dual spherical reflector antenna Arjunaidi, Ayuni Afiqah Quzwain, Kamelia Yamada, Yoshihide Kamardin, Kamilia Dinh, Nguyen Quoc T Technology (General) 5G mobile communications require multibeam base station antenna to operate at millimeter frequency band. Therefore, dual spherical antenna is promising for 5G application. As for achieving high gain, optimum antenna configuration should be found out. In this paper, the focal region ray tracing method is developed. Firstly, analytical equations for the focal region ray tracing are clarified. The key equation of determining the caustic position is then solved by MATLAB program. In addition, some ray tracing results are shown to ensure the usefulness of the developed ray tracing method. 2021 Conference or Workshop Item PeerReviewed Arjunaidi, Ayuni Afiqah and Quzwain, Kamelia and Yamada, Yoshihide and Kamardin, Kamilia and Dinh, Nguyen Quoc (2021) Focal region ray tracing of dual spherical reflector antenna. In: 2020 International Symposium on Antennas and Propagation, ISAP 2020, 25 - 28 January 2021, Virtual, Osaka. http://dx.doi.org/10.23919/ISAP47053.2021.9391424
spellingShingle	T Technology (General) Arjunaidi, Ayuni Afiqah Quzwain, Kamelia Yamada, Yoshihide Kamardin, Kamilia Dinh, Nguyen Quoc Focal region ray tracing of dual spherical reflector antenna
title	Focal region ray tracing of dual spherical reflector antenna
title_full	Focal region ray tracing of dual spherical reflector antenna
title_fullStr	Focal region ray tracing of dual spherical reflector antenna
title_full_unstemmed	Focal region ray tracing of dual spherical reflector antenna
title_short	Focal region ray tracing of dual spherical reflector antenna
title_sort	focal region ray tracing of dual spherical reflector antenna
topic	T Technology (General)
work_keys_str_mv	AT arjunaidiayuniafiqah focalregionraytracingofdualsphericalreflectorantenna AT quzwainkamelia focalregionraytracingofdualsphericalreflectorantenna AT yamadayoshihide focalregionraytracingofdualsphericalreflectorantenna AT kamardinkamilia focalregionraytracingofdualsphericalreflectorantenna AT dinhnguyenquoc focalregionraytracingofdualsphericalreflectorantenna

Focal region ray tracing of dual spherical reflector antenna

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