International audienceIn forward error correction, convolutional turbo codes were introduced to increase error correction capability approaching the Shannon bound. Decoding of these codes, however, is an iterative process requiring high computation rate and latency. Thus, in order to achieve high throughput and to reduce latency, crucial in emerging digital communication applications, parallel implementations become mandatory. This paper explores and analyses existing parallelism techniques in convolutional turbo decoding with the BCJR algorithm. For component-decoder parallelism, we illustrate the influence of interleaving scheme and we propose new interleaving rules allowing to maximize parallelism efficiency
Turbo-Codes (TC) are a family of convolutional codes enabling Forward-Error-Correction (FEC) while a...
We find good rate 2/3 and 3/4 convolutional codes for use with iterative decoding (turbo equalizatio...
For high data rate applications, the implementation of iterative turbo-like decoders requires the u...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
International audienceParallel turbo decoding is becoming mandatory in order to achieve high through...
This tutorial paper gives an overview of the implementation aspects related to turbo decoders, where...
Abstract. In this paper we present a new method to decode convolutional codes. The method is based o...
Turbo codes experience a significant decoding delay because of the iterative nature of the decoding ...
Abstract-- In this paper, we study the performance of turbo codes with different types of interleave...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
This paper presents a low complexity interleaver design that facilitates high throughput Turbo decod...
In the contribution the results of simulation of iterative decoding of parallel concatenated convolu...
Parallel concatenated coding schemes employing convolutional codes as constituent codes linked by an...
Abstract — This paper presents a new turbo coding scheme for high data rate applications. It uses a ...
This paper proposes a novel alternative to the Log-BCJR algorithm for turbo decoding, yielding signi...
Turbo-Codes (TC) are a family of convolutional codes enabling Forward-Error-Correction (FEC) while a...
We find good rate 2/3 and 3/4 convolutional codes for use with iterative decoding (turbo equalizatio...
For high data rate applications, the implementation of iterative turbo-like decoders requires the u...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
International audienceParallel turbo decoding is becoming mandatory in order to achieve high through...
This tutorial paper gives an overview of the implementation aspects related to turbo decoders, where...
Abstract. In this paper we present a new method to decode convolutional codes. The method is based o...
Turbo codes experience a significant decoding delay because of the iterative nature of the decoding ...
Abstract-- In this paper, we study the performance of turbo codes with different types of interleave...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
This paper presents a low complexity interleaver design that facilitates high throughput Turbo decod...
In the contribution the results of simulation of iterative decoding of parallel concatenated convolu...
Parallel concatenated coding schemes employing convolutional codes as constituent codes linked by an...
Abstract — This paper presents a new turbo coding scheme for high data rate applications. It uses a ...
This paper proposes a novel alternative to the Log-BCJR algorithm for turbo decoding, yielding signi...
Turbo-Codes (TC) are a family of convolutional codes enabling Forward-Error-Correction (FEC) while a...
We find good rate 2/3 and 3/4 convolutional codes for use with iterative decoding (turbo equalizatio...
For high data rate applications, the implementation of iterative turbo-like decoders requires the u...