Abstract. In this paper we present a new method to decode convolutional codes. The method is based on the Turbo principle which was originally proposed to decode parallel concatenated convolutional codes. It becomes possible because of a reinterpretation of the encoder structure. The newly interpreted code is decoded using an iterative scheme with information exchange between sub-decoders. In a second part of the paper, the new method is applied to the decoding of the GSM Full Rate Channel Code. The simulation results show that each iteration can improve the decoding performance while the original BCJR algorithm marks the upper limit
Though coding theory suggests long error correcting codes chosen at random perform close to the opti...
International audienceIn recent years, the turbo principle has been widely applied to various decodi...
This thesis is about non-binary convolutional turbo codes--codes constructed via parallel concatenat...
This tutorial paper gives an overview of the implementation aspects related to turbo decoders, where...
This thesis is concerned with the area of decoding techniques of concatenated, error correcting code...
In iterative equalization and decoding the "turbo--principle" is used for iterative detect...
Abstract. In this thesis, a family of low complexity convolutional codes is constructed, by modifyin...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
International audienceThis chapter is a general introduction to the original turbo codes discovered ...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
Two classes of generalized concatenated (GC) codes with convolutional outer codes are studied. The f...
In this article, we present two versions of a simplifled maximum a posteriori decoding algorithm. Th...
Turbo coding is one of the best channel coding procedures presented to the coding community in the r...
The transmission of data coded by a convolutional or turbo code and secured by cryptographic check v...
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interl...
Though coding theory suggests long error correcting codes chosen at random perform close to the opti...
International audienceIn recent years, the turbo principle has been widely applied to various decodi...
This thesis is about non-binary convolutional turbo codes--codes constructed via parallel concatenat...
This tutorial paper gives an overview of the implementation aspects related to turbo decoders, where...
This thesis is concerned with the area of decoding techniques of concatenated, error correcting code...
In iterative equalization and decoding the "turbo--principle" is used for iterative detect...
Abstract. In this thesis, a family of low complexity convolutional codes is constructed, by modifyin...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
International audienceThis chapter is a general introduction to the original turbo codes discovered ...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
Two classes of generalized concatenated (GC) codes with convolutional outer codes are studied. The f...
In this article, we present two versions of a simplifled maximum a posteriori decoding algorithm. Th...
Turbo coding is one of the best channel coding procedures presented to the coding community in the r...
The transmission of data coded by a convolutional or turbo code and secured by cryptographic check v...
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interl...
Though coding theory suggests long error correcting codes chosen at random perform close to the opti...
International audienceIn recent years, the turbo principle has been widely applied to various decodi...
This thesis is about non-binary convolutional turbo codes--codes constructed via parallel concatenat...