Turbo codes have been widely studied since they were first proposed in 1993 by Berrou, Glavieux, and Thitimajshima in "Near Shannon Limit error-correcting coding and decoding: Turbo-codes" [1]. They have the advantage of providing a low bit error rate (BER) in decoding, and outperform linear block and convolutional codes in low signal-to-noise-ratio (SNR) environments. The decoding performance of turbo codes can be very close to the Shannon Limit, about 0.7decibel (dB). It is determined by the architectures of the constituent encoders and interleaver, but is bounded in high SNRs by an error floor. Turbo codes are widely used in communications. We explore the codeword weight spectrum properties that contribute to their excellent performance....
Turbo codes can deliver performance that is very close to the Shannon limit. This report investigate...
This thesis is aimed to implement turbo decoder with various iteratie decoding algorithms, and to co...
International audienceIn this paper, we demonstrate the higher hardware efficiency of Reed-Solomon (...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
In this thesis, a new algorithm for Turbo codes and a novel implementation of turbo decoder employed...
A large number of papers have been published attempting to give some analytical basis for the perfor...
This thesis describes a hardware implementation of a Turbo encoder/decoder. -- Turbo codes, introduc...
International audienceStochastic decoding that is inspired by stochastic computation is an alternati...
In this article, we design new turbo codes that can achieve near-Shannon-limit performance. The desi...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
Turbo codes are a class of forward error correction codes, which have outperformed all the previousl...
This project deals will investigate the performance of simple communication model using state of the...
The introduction of turbo codes in 1993 was a breakthrough in constructing error correction codes th...
Turbo Codes have gained prominence because of its near channel capacity error correcting capability....
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
Turbo codes can deliver performance that is very close to the Shannon limit. This report investigate...
This thesis is aimed to implement turbo decoder with various iteratie decoding algorithms, and to co...
International audienceIn this paper, we demonstrate the higher hardware efficiency of Reed-Solomon (...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
In this thesis, a new algorithm for Turbo codes and a novel implementation of turbo decoder employed...
A large number of papers have been published attempting to give some analytical basis for the perfor...
This thesis describes a hardware implementation of a Turbo encoder/decoder. -- Turbo codes, introduc...
International audienceStochastic decoding that is inspired by stochastic computation is an alternati...
In this article, we design new turbo codes that can achieve near-Shannon-limit performance. The desi...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
Turbo codes are a class of forward error correction codes, which have outperformed all the previousl...
This project deals will investigate the performance of simple communication model using state of the...
The introduction of turbo codes in 1993 was a breakthrough in constructing error correction codes th...
Turbo Codes have gained prominence because of its near channel capacity error correcting capability....
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
Turbo codes can deliver performance that is very close to the Shannon limit. This report investigate...
This thesis is aimed to implement turbo decoder with various iteratie decoding algorithms, and to co...
International audienceIn this paper, we demonstrate the higher hardware efficiency of Reed-Solomon (...