Frame synchronization for pulsed jammed satellite telecommand links

Abstract

A new issue of the satellite telecommand synchronization and channel coding sublayer protocol 1 includes LDPC coded communication link transmission units (CLTU) that contain a 64-bit start sequence. The novel data structures allow operation at lower signal-to-noise ratios than before, and offer improved protection against jamming attacks. This paper considers the corresponding CLTU frame synchronization process. We derive practical algorithms to locate the start sequence in the presence of high noise levels and pulsed jamming. The different algorithms are compared in terms of implementation complexity and performance under various jamming conditions. It is shown that among the considered frame synchronizers, those involving a full search over the entire observation window provide the desired accuracy, i.e., they guarantee a frame synchronization error probability that is significantly smaller than the codeword error rate, for codeword error rates near a target value of 10−4 . Among these synchronizers, the full-search hard-decision-directed correlation-based algorithm has the lowest complexity.

Publication
INTERNATIONAL JOURNAL OF SATELLITE COMMUNICATIONS AND NETWORKING
Nele Noels
Professor of Telecommunications

My research interests include statistical communication theory, carrier and symbol synchronization, bandwidth-efficient modulation and coding, massive MIMO, optical OFDM, satellite and mobile communication.