Joint source and channel decoding (JSCD) has been proved to be an effective technique which can improve decoding performance by exploiting residual source redundancy. Most previous publications on this subject focus on a traditional coding scheme in which the source variable-length coding (VLC) is serially concatenated with a channel code. In this paper, a parallel concatenated coding scheme for the VLC combined with a turbo code is presented. By merging a symbol-level VLC trellis with a convolutional trellis, we construct a symbol-level joint trellis with compound states. Also, a solution of the symbol-by-symbol a posteriori probability (APP) decoding algorithm based on this joint trellis is derived, which leads to an iterative JSCD approa...
In this paper, a new source encoding scheme is presented. It is a trellis coded quantization scheme ...
We propose a block coded Turbo DeCodulation scheme, combining iterative demodulation, channel decodi...
We consider the decoding of wireless communication systems with both source coding in the applicatio...
A new joint source-channel (JSC) turbo-decoding scheme, with three soft-in/soft-out (SISO) modules, ...
We proposed in Jaspar et al. (2004) a joint source-channel (JSC) turbo-(de)coder combining a variabl...
Recently, we proposed a joint source-channel (JSC) turbo (de)coder combining a variable length code ...
Variable length codes (VLCs), used in data compression, are very sensitive to error propagation in t...
International audienceIn this paper a novel joint source channel (JSC) decoding technique is present...
Based on Shannon's Separation Principle, source and channel coding are often treated independen...
In this article, we present two versions of a simplifled maximum a posteriori decoding algorithm. Th...
Turbo codes, also known as parallel concatenated re-cursive systematic convolutional codes, have bee...
Multimedia transmission over time-varying wireless channels presents a number of challenges beyond ...
International audienceMost source coding standards (voice, audio, image and video) use Variable-Leng...
We propose a new turbo detection structure called as Multiple Channel Turbo Detection (MCTD) where t...
This thesis presents a novel iterative joint source and channel decoding scheme using turbo codes fo...
In this paper, a new source encoding scheme is presented. It is a trellis coded quantization scheme ...
We propose a block coded Turbo DeCodulation scheme, combining iterative demodulation, channel decodi...
We consider the decoding of wireless communication systems with both source coding in the applicatio...
A new joint source-channel (JSC) turbo-decoding scheme, with three soft-in/soft-out (SISO) modules, ...
We proposed in Jaspar et al. (2004) a joint source-channel (JSC) turbo-(de)coder combining a variabl...
Recently, we proposed a joint source-channel (JSC) turbo (de)coder combining a variable length code ...
Variable length codes (VLCs), used in data compression, are very sensitive to error propagation in t...
International audienceIn this paper a novel joint source channel (JSC) decoding technique is present...
Based on Shannon's Separation Principle, source and channel coding are often treated independen...
In this article, we present two versions of a simplifled maximum a posteriori decoding algorithm. Th...
Turbo codes, also known as parallel concatenated re-cursive systematic convolutional codes, have bee...
Multimedia transmission over time-varying wireless channels presents a number of challenges beyond ...
International audienceMost source coding standards (voice, audio, image and video) use Variable-Leng...
We propose a new turbo detection structure called as Multiple Channel Turbo Detection (MCTD) where t...
This thesis presents a novel iterative joint source and channel decoding scheme using turbo codes fo...
In this paper, a new source encoding scheme is presented. It is a trellis coded quantization scheme ...
We propose a block coded Turbo DeCodulation scheme, combining iterative demodulation, channel decodi...
We consider the decoding of wireless communication systems with both source coding in the applicatio...