An interesting practical consideration for decoding of serial or parallel concatenated codes with more than two components is the determination of the lowest complexity component decoder schedule which results in convergence. This correspondence presents an algorithm that finds such an optimal decoder schedule. A technique is also given for combining and projecting a series of three-dimensional extrinsic information transfer (EXIT) functions onto a single two-dimensional EXIT chart. This is a useful technique for visualizing the convergence threshold for multiple concatenated codes and provides a design tool for concatenated codes with more than two components
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
This paper is concerned with the decoding technique and performance of multi-dimensional concatenate...
In this thesis, we apply EXtrinsic Information Transfer (EXIT) charts for analysing iterative decodi...
The objective of this thesis is to develop a methodology for designing efficient multiple concatenat...
In this paper an algorithm is proposed thatfinds the optimal activation schedule for the componentde...
We propose an algorithm for findingthe optimal decoder activation order in a system withmore than tw...
Extrinsic information transfer (EXIT) charts have been used extensively for designing concatenated c...
Optimal puncturing ratios for parallel concatenatedcodes with two or more constituent codes are foun...
Abstract—In the low signal-to-noise ratio regime, the per-formance of concatenated coding schemes is...
Abstract—Mutual information transfer characteristics of soft in/soft out decoders are proposed as a ...
An improved concatenated code structure, which generalizes parallel and serially concatenated convol...
International audienceAn improved concatenated code structure, which generalizes parallel and serial...
Abstract — In this paper we show how to find optimal energy distribution together with optimal punct...
Mutual information transfer charac-teristics for soft in/soft out decoders are proposed as a tool to...
We compare the convergence thresholds of parallel and serially concatenated codes with interleaver t...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
This paper is concerned with the decoding technique and performance of multi-dimensional concatenate...
In this thesis, we apply EXtrinsic Information Transfer (EXIT) charts for analysing iterative decodi...
The objective of this thesis is to develop a methodology for designing efficient multiple concatenat...
In this paper an algorithm is proposed thatfinds the optimal activation schedule for the componentde...
We propose an algorithm for findingthe optimal decoder activation order in a system withmore than tw...
Extrinsic information transfer (EXIT) charts have been used extensively for designing concatenated c...
Optimal puncturing ratios for parallel concatenatedcodes with two or more constituent codes are foun...
Abstract—In the low signal-to-noise ratio regime, the per-formance of concatenated coding schemes is...
Abstract—Mutual information transfer characteristics of soft in/soft out decoders are proposed as a ...
An improved concatenated code structure, which generalizes parallel and serially concatenated convol...
International audienceAn improved concatenated code structure, which generalizes parallel and serial...
Abstract — In this paper we show how to find optimal energy distribution together with optimal punct...
Mutual information transfer charac-teristics for soft in/soft out decoders are proposed as a tool to...
We compare the convergence thresholds of parallel and serially concatenated codes with interleaver t...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
This paper is concerned with the decoding technique and performance of multi-dimensional concatenate...
In this thesis, we apply EXtrinsic Information Transfer (EXIT) charts for analysing iterative decodi...