Journal ArticleDOI
Channel coding with multilevel/phase signals
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TLDR
A coding technique is described which improves error performance of synchronous data links without sacrificing data rate or requiring more bandwidth by channel coding with expanded sets of multilevel/phase signals in a manner which increases free Euclidean distance.Abstract:
A coding technique is described which improves error performance of synchronous data links without sacrificing data rate or requiring more bandwidth. This is achieved by channel coding with expanded sets of multilevel/phase signals in a manner which increases free Euclidean distance. Soft maximum--likelihood (ML) decoding using the Viterbi algorithm is assumed. Following a discussion of channel capacity, simple hand-designed trellis codes are presented for 8 phase-shift keying (PSK) and 16 quadrature amplitude-shift keying (QASK) modulation. These simple codes achieve coding gains in the order of 3-4 dB. It is then shown that the codes can be interpreted as binary convolutional codes with a mapping of coded bits into channel signals, which we call "mapping by set partitioning." Based on a new distance measure between binary code sequences which efficiently lower-bounds the Euclidean distance between the corresponding channel signal sequences, a search procedure for more powerful codes is developed. Codes with coding gains up to 6 dB are obtained for a variety of multilevel/phase modulation schemes. Simulation results are presented and an example of carrier-phase tracking is discussed.read more
Citations
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Proceedings ArticleDOI
Successively refinable trellis coded quantization
Hamid Jafarkhani,Vahid Tarokh +1 more
TL;DR: Two algorithms for designing trellis coded quantizers which provide embedded bit streams are provided and the computational complexity of the proposed schemes is compared with that of trellIS coded quantization.
Optimizing BICM with convolutional codes for transmission over the AWGN channel
TL;DR: It is demonstrated that the BER of BICM on AWGN channels can be significantly lowered at no additional cost and depending on the signal constellation size and the constraint length of the convolutional code gains up to 7 dB can be achieved over BicM with random bit interleavers.
Patent
Digital audio broadcasting method and apparatus using complementary pattern-mapped convolutional codes
TL;DR: In this paper, a method of transmitting digital information using the steps of forward error correction coding (56) a plurality of bits of digital information (54) using complementary pattern-mapped convolutional codes, modulating (62) the carrier signals with the forward error error correction coded bits, and transmitting (76) the modulated carrier signals.
Proceedings ArticleDOI
Adaptive coding for fading channels using outdated channel estimates
TL;DR: A bound to the pairwise error probability between two paths in the trellis of the adaptive scheme is derived analytically for the case where the coded symbols are imperfectly interleaved, suggesting that adaptive signaling may be a strong candidate for systems operating in an environment that has limited diversity available.
Journal ArticleDOI
Comparison of 128-SP-QAM with PM-16-QAM
Martin Sjödin,Pontus Johannisson,Jianqiang Li,Erik Agrell,Peter A. Andrekson,Magnus Karlsson +5 more
TL;DR: Simulations including laser phase noise show that the phase noise tolerance is similar for the two formats, with 0.5 dB OSNR penalty compared to the case with zero phase noise for a laser linewidth to symbol rate ratio of 10⁻⁴, and the results show that 128-SP-QAM achieves more than 40% increase in transmission reach compared to PM-16-Qam.
References
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Journal ArticleDOI
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Journal ArticleDOI
Coherent and Noncoherent Detection CPFSK
W. Osborne,M. Luntz +1 more
TL;DR: This work provides a complete analysis of the performance of CPFSK at high SNR as well as low SNR and thereby unifies and extends the results previously available.