This paper presents parallel concatenated turbo codes that employ a non-uniform constellation to achieve shaping gain. The output signal approximates the Gaussian distribution by using equally likely signals with unequal spacing (a non-uniform constellation). The small distance of points near the center of the constellation may lead to a small overall free distance and thus a high error floor for turbo codes. We avoid this situation by a two-step design procedure, that first creates an interleaver, and then identifies the constituent encoders that maximize the turbo code free distance. Simulation results for 4 bits/sec/Hz show that this use of shaping can offer an improvement of approximately 0.2 dB for turbo codes
Abstract—Trellis shaping (TS) has found its application in the peak power control of band-limited si...
In this paper we propose a model for the generation of error patterns at the output of a turbo decod...
While turbo codes (TCs) offer performance very close to the Shannon limit in the so-called waterfall...
Absrract-This paper presents parallel concatenated turbo codes that employ a non-uniform constellati...
This paper addresses turbo-encoder design for coding with high spectral efficiency using parallel co...
In this article, we design new turbo codes that can achieve near-Shannon-limit performance. The desi...
The influence of the degree profile on the performance of an irregular turbo code (TC) is analysed u...
4siIn this paper, we introduce the concept of nonsystematic turbo codes and compare them with classi...
The following topics were dealt with: Shannon theory; universal lossless source coding; CDMA; turbo ...
In this report, we present the results of our recent work on turbo coding in two formats. Appendix A...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
This paper presents a method for efficient coding at high spectral efficiency using parallel concate...
International audienceThis paper presents a survey of two techniques intended for improving the perf...
NASA Lewis Research Center s Communications Technology Division has an ongoing program in the develo...
International audienceWe present a new and simple method which consists to apply constellation shapi...
Abstract—Trellis shaping (TS) has found its application in the peak power control of band-limited si...
In this paper we propose a model for the generation of error patterns at the output of a turbo decod...
While turbo codes (TCs) offer performance very close to the Shannon limit in the so-called waterfall...
Absrract-This paper presents parallel concatenated turbo codes that employ a non-uniform constellati...
This paper addresses turbo-encoder design for coding with high spectral efficiency using parallel co...
In this article, we design new turbo codes that can achieve near-Shannon-limit performance. The desi...
The influence of the degree profile on the performance of an irregular turbo code (TC) is analysed u...
4siIn this paper, we introduce the concept of nonsystematic turbo codes and compare them with classi...
The following topics were dealt with: Shannon theory; universal lossless source coding; CDMA; turbo ...
In this report, we present the results of our recent work on turbo coding in two formats. Appendix A...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
This paper presents a method for efficient coding at high spectral efficiency using parallel concate...
International audienceThis paper presents a survey of two techniques intended for improving the perf...
NASA Lewis Research Center s Communications Technology Division has an ongoing program in the develo...
International audienceWe present a new and simple method which consists to apply constellation shapi...
Abstract—Trellis shaping (TS) has found its application in the peak power control of band-limited si...
In this paper we propose a model for the generation of error patterns at the output of a turbo decod...
While turbo codes (TCs) offer performance very close to the Shannon limit in the so-called waterfall...