End-to-end Precoding Validation over a Live GEO Satellite Forward Link

In this paper we demonstrate end-to-end precoded multi-user multiple-input single-output (MU-MISO) communications over a live GEO satellite link. Precoded communications enable full frequency reuse (FFR) schemes in satellite communications (SATCOM) to achieve broader service availability and higher...

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Veröffentlicht in:	arXiv.org 2021-01
Hauptverfasser:	Krivochiza, Jevgenij, Merlano Duncan, Juan Carlos, Querol, Jorge, Maturo, Nicola, Liz Martinez Marrero, Andrenacci, Stefano, Krause, Jens, Chatzinotas, Symeon
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Sprache:	eng
Schlagworte:	Color Frequency reuse Satellite communications
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creator	Krivochiza, Jevgenij Merlano Duncan, Juan Carlos Querol, Jorge Maturo, Nicola Liz Martinez Marrero Andrenacci, Stefano Krause, Jens Chatzinotas, Symeon
description	In this paper we demonstrate end-to-end precoded multi-user multiple-input single-output (MU-MISO) communications over a live GEO satellite link. Precoded communications enable full frequency reuse (FFR) schemes in satellite communications (SATCOM) to achieve broader service availability and higher spectrum efficiency than with the conventional four-color (4CR) and two-color (2CR) reuse approaches. In this scope, we develop an over-the-air test-bed for end-to-end precoding validations. We use an actual multi-beam satellite to transmit and receive precoded signals using the DVB-S2X standard based gateway and user terminals. The developed system is capable of end-to-end real-time communications over the satellite link including channel measurements and precompensation. It is shown, that by successfully canceling inter-user interference in the actual satellite FFR link precoding brings gains in terms of enhanced SINR and increased system goodput.
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subjects	Color Frequency reuse Satellite communications
title	End-to-end Precoding Validation over a Live GEO Satellite Forward Link
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