Design and Analysis of the Tail Sequence for Short LDPC-Coded Space Communications
Massimo Battaglioni, Kenneth Andrews, Rebecca Giuliani, Fabrizio Marinelli, Franco Chiaraluce, Marco Baldi

TL;DR
This paper proposes a novel tail sequence design for short LDPC codes in space communications, improving transmission unit detection and rejection probability while reducing detection complexity.
Contribution
It introduces specific features and methods for designing tail sequences that enhance detection performance for short LDPC-coded space communication links.
Findings
Significant increase in TC rejection probability with the proposed tail sequence
Comparable performance of decoder-based detection and likelihood ratio test at moderate SNR
Reduced complexity in detection approach using the tail sequence design
Abstract
According to some standards for satellite communications, the transmitted stream is divided into transmission units with variable length, for which detecting the termination is particularly relevant. This is the case of space TeleCommands (TCs), where coded data are usually preceded by a start sequence, and optionally followed by a tail sequence, forming the Communication Link Transmission Unit (CLTU). Regarding the choice of schemes for error correction, the Consultative Committee for Space Data Systems recommendations for TC synchronization and coding suggests to use, among others, two Low-Density Parity-Check (LDPC) codes: one (relatively) long and one short. Adopting the long LDPC code eliminates the need for a tail sequence, as the LDPC decoder always fails when overrunning the end of the CLTU, thus causing the decoding and detection process to stop. This, however, is not true when…
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