Comparative study of turbo decoding techniques: an overview

Woodard, Jason; Hanzo, Lajos

doi:10.1109/25.901892

Cited by 259 publications

(174 citation statements)

References 47 publications

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“…Figure 5 shows the general structure of the parallel Punctured Turbo Codes [27]. These are parallel concatenated convolutional codes in which the information bits are first encoded by a RSC (Recursive Systematic Convolutional) encoder, and (after passing through an interleaver) encoded again by a second RSC.…”

Section: Rate Compatible Punctured Turbo-codes (Rcptc)mentioning

confidence: 99%

Hybrid Turbo FEC/ARQ Systems and Distributed Space-Time Coding for Cooperative Transmission

Agustín

Vidal

Muñoz

2005

Int J Wireless Inf Networks

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Abstract.-Cooperative transmission can be seen as a "virtual" MIMO system, where the multiple transmit antennas are in fact implemented distributed by the antennas both at the source and the relay terminal. Depending on the system design, diversity/multiplexing gains are achievable. This design involves the definition of the type of retransmission (incremental redundancy, repetition coding), the design of the distributed space-time codes, the error correcting scheme, the operation of the relay (decode&forward or amplify&forward) and the number of antennas at each terminal. Proposed schemes are evaluated in different conditions in combination with forward error correcting codes (FEC), both for linear and near-optimum (sphere decoder) receivers, for its possible implementation in downlink high speed packet services of cellular networks. Results show the benefits of coded cooperation over direct transmission in terms of increased throughput. It is shown that multiplexing gains are observed even if the mobile station features a single antenna, provided that cell wide reuse of the relay radio resource is possible.

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Section: Rate Compatible Punctured Turbo-codes (Rcptc)mentioning

confidence: 99%

Hybrid Turbo FEC/ARQ Systems and Distributed Space-Time Coding for Cooperative Transmission

Agustín

Vidal

Muñoz

2005

Int J Wireless Inf Networks

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“…Such techniques have been reported to achieve impressive results for codes with long codeword length. Following the seminal paper by Berrou et al [8], there have been many results on turbo decoding, with performances approaching the Shannon limit on single-input single-output systems (see [9] and references therein). More recently, low-density parity check (LDPC) codes, long neglected since their introduction by Gallager [10] have also been resurrected (see, e.g., [11], [12]).…”

Section: Introductionmentioning

confidence: 99%

Towards closing the capacity gap on multiple antenna channels

Vikalo¹,

Hassibi²

2002

IEEE International Conference on Acoustics Speech and Signal Processing

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In recent years, soft iterative decoding techniques have been shown to greatly improve the bit error rate performance of various communication systems. For multiple antenna systems, however, it is not clear what is the best way to obtain the soft-information required of the iterative scheme with low complexity. In this paper, we propose a modification of the Fincke-Pohst (sphere decoder) algorithm to estimate the MAP probability of the received symbol sequence. The new algorithm solves a nonlinear integer leastsquares problem and, over a wide range of rates and SNRs, has polynomial-time (often cubic) complexity. The performance of the algorithm, combined with convolutional, turbo, and LDPC codes is demonstrated on several multiple antenna channels.

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“…The channel is assumed to be a frequency non-selective slow Rayleigh fading channel with f D T=0.001, which corresponds to a maximum Doppler frequency f D of 128Hz for an information data rate of 64k bits/s and a chip rate of 4.096M chips/s. The turbo decoder used in this paper is based on the log-MAP algorithm [2]. The simulation conditions are summarized in Table 1.…”

Section: Simulation Resultsmentioning

confidence: 99%

“…The received signal soft values for the turbo decoder input is given by (2). Signal-to-noise ratio (SNR) per symbol for the 0 th data symbol is given by γ ξ ξ ξ2Re …”

Section: I=nsf~(n+1)sf-1}mentioning

confidence: 99%

“…Interleaver spreads the coded bits out in time so that even if there is a deep fade, the neighboring bits are not corrupted by noise at the same time. However, it is observed [2] that the bit error rate (BER) performance even with channel interleaving degrades compared to that in an additive white Gaussian noise (AWGN) channel. This is because, although the fading channel can be memoryless with a conventional channel bit-interleaving, the probability density function (pdf) of the received coded bit energy cannot be altered (it still has an exponential distribution in a Rayleigh fading channel).…”

Section: Introductionmentioning

confidence: 99%

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Chip interleaved turbo codes for DS-CDMA in a Rayleigh fading channel with diversity reception

Garg

Adachi

Proceedings IEEE 56th Vehicular Technology Conference

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Abstract-A new channel interleaving method, called chip interleaving, for direct sequence code division multiple access (DS-CDMA) mobile radio is proposed. Chip interleaver scrambles the chips and transforms the transmission channel into a highly time-selective or highly memoryless channel. It was found that the turbo decoding performance which degrades in a fading channel is significantly improved with chip interleaving. It was also found that the bit error rate (BER) performance improves with increasing spreading factor (SF) and increasing frame length. Chip interleaving is effective in the presence of antenna diversity as well, however the improvement decreases with the increase in the number of antennas.

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Comparative study of turbo decoding techniques: an overview

Cited by 259 publications

References 47 publications

Hybrid Turbo FEC/ARQ Systems and Distributed Space-Time Coding for Cooperative Transmission

Hybrid Turbo FEC/ARQ Systems and Distributed Space-Time Coding for Cooperative Transmission

Towards closing the capacity gap on multiple antenna channels

Chip interleaved turbo codes for DS-CDMA in a Rayleigh fading channel with diversity reception

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