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A Novel Physical Layer Split FEC Scheme for Long Time Interleaving With Fast Zapping Support

This paper describes a novel forward error correction (FEC) and time interleaving scheme, known as BB-iFEC (Base Band - inter-burst FEC), aimed to provide long time interleaving with fast zapping support. BB-iFEC is a split FEC scheme with an outer FEC and an outer time interleaver concatenated to t...

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Bibliographic Details
Published in:IEEE transactions on broadcasting 2012-06, Vol.58 (2), p.269-276
Main Authors: Gomez-Barquero, D., Gomez, P. F., Gozalvez, D., Sayadi, B., Roullet, L.
Format: Article
Language:English
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Summary:This paper describes a novel forward error correction (FEC) and time interleaving scheme, known as BB-iFEC (Base Band - inter-burst FEC), aimed to provide long time interleaving with fast zapping support. BB-iFEC is a split FEC scheme with an outer FEC and an outer time interleaver concatenated to the inner FEC and inner time interleaver. It is based on the link layer FEC scheme of the hybrid satellite-terrestrial mobile broadcasting standard DVB-SH (Satellite to Handhelds), known as MPE-iFEC (Multi Protocol Encapsulation - inter-burst FEC), but moved down to the physical layer. This allows full transparency towards upper layers, as well as reduced signaling overhead and packet fragmentation. However, the major novelty is that it allows re-using the soft information at the output of the inner FEC decoder (i.e., the log-likelihood ratios, LLRs). Compared to hard decoding, this improves the performance at the expense of higher memory requirements at the receivers. Nevertheless, BB-iFEC allows to efficiently perform either soft or hard decoding, being thus a scalable solution. Another important advantage is that it can be introduced in future evolutions of existing systems, because it allows allows co-existence of terminals with and without long time interleaving support. The paper describes the main features of BB-iFEC and its implementation at the transmitter and receiver side. The paper also presents illustrative results for future evolutions of the digital terrestrial TV standard DVB-T2 (Second Generation Terrestrial), such as the next generation mobile broadcasting technology DVB-NGH (Next Generation Handheld).
ISSN:0018-9316
1557-9611
DOI:10.1109/TBC.2012.2185574