Abstract
AbstractForward error correction (FEC) techniques are applied to INTELSAT intermediate data rate (IDR) services to reduce the transmitted power requirements relative to uncoded systems, thereby increasing the satellite transponder capacity. Properly designed FEC systems reduce data errors in the received digital stream with minimal impact to the protocols, operation and equipment involved with the communication system. This paper discusses the overall system impact of the addition of FEC to the IDR service. The appropriateness of the specific application of convolutional encoding combined with Viterbi decoding techniques is discussed. Basic concepts of convolutional encoding and Viterbi decoding are presented in order to provide understanding of the trade‐offs involved in the specification of the coding technique for the IDR service. The details of the IDR FEC specification are presented. The implementation of a system based on a VLSI Viterbi decoder device which conforms to the INTELSAT requirements is described.
Published Version
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