Performance Analysis of Deployment Errors for A Two-Stage Antenna in CubeSat Constellations at THz Frequencies
2023 INTERNATIONAL CONFERENCE ON ELECTROMAGNETICS IN ADVANCED APPLICATIONS, ICEAA(2023)
Abstract
The rise of CubeSats in non-terrestrial networks (NTN) has gained recent popularity. To make such CubeSat constellations work at faster rates, the utilization of the terahertz (THz) band is proposed. As such, both high gain directional communications as well as expedited neighbor discovery should be possible, to which end a two Stage antenna is proposed, and analyzed. Stage 1 is set in-vitro within the CubeSat, while Stage 2 is deployed later via a crank-shaft-based hinge mechanism. Possible errors in deployment are analyzed, including both symmetrical and asymmetrical errors. It is shown that while symmetrical errors can completely cripple the additional gain from Stage 2, asymmetrical errors can still result in an antenna design that provides 5 dBi of additional gain without any real estate penalty.
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Key words
additional gain,antenna design,asymmetrical errors,crank-shaft-based hinge mechanism,CubeSat constellations,deployment errors,expedited neighbor discovery,faster rates,high gain directional communications,nonterrestrial networks,performance analysis,possible errors,recent popularity,symmetrical errors,terahertz band,THz frequencies,two-Stage antenna
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