Publikationer
Serial and parallel concatenations based on faster than Nyquist signaling
Avdelning/ar:
Publiceringsår: 2006
Språk: Engelska
Sidor: 1993-1997
Publikation/Tidskrift/Serie: Proceedings, 2006 IEEE International Symposium on Information Theory
Fulltext:
Dokumenttyp: Konferensbidrag
Förlag: IEEE Press
Sammanfattning
We investigate the performance of concatenated coding schemes based on Faster Than Nyquist(FTN) signaling
over the AWGN channel. We test both serial and parallel
concatenations. In serial concatenation the FTN signaling is considered as the inner encoder and the outer code is a rate b/c convolutional code. In parallel schemes we use two parallel Gaussian channels and transmit FTN pulse trains in both; here a precoding device turns out to be crucial. The convergence behaviour is analysed using EXIT charts. The overall spectral density of the schemes varies but is roughly 1–2 bit/s/Hz. The results, in terms of needed Eb/N0 for reliable communication versus spectral density, are very good.
over the AWGN channel. We test both serial and parallel
concatenations. In serial concatenation the FTN signaling is considered as the inner encoder and the outer code is a rate b/c convolutional code. In parallel schemes we use two parallel Gaussian channels and transmit FTN pulse trains in both; here a precoding device turns out to be crucial. The convergence behaviour is analysed using EXIT charts. The overall spectral density of the schemes varies but is roughly 1–2 bit/s/Hz. The results, in terms of needed Eb/N0 for reliable communication versus spectral density, are very good.
Disputation
Nyckelord
- Technology and Engineering
- EXIT charts
- Concatenated coding
- Coded modulation
- Faster Than Nyquist
- iterative decoding
Övrigt
IEEE Inter. Symp. on Information Theory
2006-07-09
Seattle
- Vetenskapsrådet
Published
- EIT_HSWC:Coding Coding, modulation, security and their implementation
Yes
- Informations- och kommunikationsteori
- ISBN: 1-4244-0504-1
