In wireless communication schemes, turbo codes facilitate near-capacity transmission throughputs by achieving reliable forward error correction. However, owing to the serial data dependencies imposed by the underlying Logarithmic Bahl-Cocke-Jelinek-Raviv (Log- BCJR) algorithm, the limited processing throughputs of conventional turbo decoder implementations impose a severe bottleneck upon the overall throughputs of realtime wireless communication schemes. Motivated by this, we recently proposed a Fully Parallel Turbo Decoder (FPTD) algorithm, which eliminates these serial data dependencies, allowing parallel processing and hence offering a significantly higher processing throughput. In this paper, we propose a novel resource-efficient versio...
In order to meet the latency requirements of the Ultra-Reliable Low Latency Communication (URLLC) mo...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
International audienceStochastic decoding that is inspired by stochastic computation is an alternati...
Turbo codes facilitate near-capacity transmission throughputs by achieving a reliable iterative forw...
Turbo codes comprising a parallel concatenation of upper and lower convolutional codes are widely em...
This paper proposes a novel alternative to the Log-BCJR algorithm for turbo decoding, yielding signi...
The Ultra-Reliable Low Latency Communication (URLLC) concept has been conceived for the emerging Fif...
As a class of high-performance forward error correction codes, turbo codes, which can approach the c...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
© 2017 IEEE. Implementation of an efficient turbo decoder with low complexity, short delay and insig...
Wireless communication at near-capacity transmission throughputs is facilitated by employing sophist...
Iterative turbo equalization is capable of achieving impressive performance gains over the conventio...
Abstract: As a class of high-performance forward error correction codes, turbo codes, which can appr...
In order to meet the latency requirements of the Ultra-Reliable Low Latency Communication (URLLC) mo...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
International audienceStochastic decoding that is inspired by stochastic computation is an alternati...
Turbo codes facilitate near-capacity transmission throughputs by achieving a reliable iterative forw...
Turbo codes comprising a parallel concatenation of upper and lower convolutional codes are widely em...
This paper proposes a novel alternative to the Log-BCJR algorithm for turbo decoding, yielding signi...
The Ultra-Reliable Low Latency Communication (URLLC) concept has been conceived for the emerging Fif...
As a class of high-performance forward error correction codes, turbo codes, which can approach the c...
International audienceUltra high-speed block turbo decoder architectures meet the demand for even hi...
© 2017 IEEE. Implementation of an efficient turbo decoder with low complexity, short delay and insig...
Wireless communication at near-capacity transmission throughputs is facilitated by employing sophist...
Iterative turbo equalization is capable of achieving impressive performance gains over the conventio...
Abstract: As a class of high-performance forward error correction codes, turbo codes, which can appr...
In order to meet the latency requirements of the Ultra-Reliable Low Latency Communication (URLLC) mo...
National audienceThe increasing demand of high data rate and reliability in modern communication sys...
International audienceStochastic decoding that is inspired by stochastic computation is an alternati...