Reliability of Small Satellite Networks With Software-Defined Radio and Enhanced Multiple Access Protocol

Space missions exploiting small satellite networks with a use of software-defined radio (SDR) and advanced random access (RA) protocols have attracted an increased amount of attentions given their low costs, low latency levels, low complexity, and yet competitive data rates for global network servic...

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Veröffentlicht in:	IEEE transactions on aerospace and electronic systems 2021-06, Vol.57 (3), p.1891-1902
Hauptverfasser:	Jung, Seunghwa, Choi, Jihwan P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Analog to digital conversion Analog to digital converters Communications systems Communications traffic CubeSat Failure analysis Failure rates Field programmable gate arrays Global network Hardware Markov processes Mathematical models multiple access protocol Network latency Network reliability Parameters Power consumption Random access Reliability Reliability analysis Reliability engineering Robustness (mathematics) satellite communication Satellite networks small satellite Small satellites Software radio software-defined radio (SDR) Space missions System reliability Telecommunication traffic
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container_title	IEEE transactions on aerospace and electronic systems
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creator	Jung, Seunghwa Choi, Jihwan P.
description	Space missions exploiting small satellite networks with a use of software-defined radio (SDR) and advanced random access (RA) protocols have attracted an increased amount of attentions given their low costs, low latency levels, low complexity, and yet competitive data rates for global network services. In this article, we derive a mathematical model to demonstrate the reliability of a small satellite network with respect to SDR structures, the transmitted signal power on the uplink/downlink channels, code rates, and packet collisions through an enhanced RA protocol. Our model provides quantitative network reliability with respect to SDR system failure rates, feasible communication parameters, and packet loss ratios. Our analysis suggests a methodology to evaluate network reliability differences according to changes of communication parameters, and a guideline to sustain a reliable network system with appropriate parameter values. We find out that a robust SDR structure with a state-of-the-art analog-to-digital converter can provide reliable network services effectively with reduced power consumption, even with high packet traffic loads, to meet operator-required reliability levels for small satellite networks.
doi_str_mv	10.1109/TAES.2021.3050652
format	Article
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subjects	Analog to digital conversion Analog to digital converters Communications systems Communications traffic CubeSat Failure analysis Failure rates Field programmable gate arrays Global network Hardware Markov processes Mathematical models multiple access protocol Network latency Network reliability Parameters Power consumption Random access Reliability Reliability analysis Reliability engineering Robustness (mathematics) satellite communication Satellite networks small satellite Small satellites Software radio software-defined radio (SDR) Space missions System reliability Telecommunication traffic
title	Reliability of Small Satellite Networks With Software-Defined Radio and Enhanced Multiple Access Protocol
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