This paper describes two new matrix transform algorithms for the Max-Log-MAP decoding of turbo codes. In the proposed algorithms, the successive decoding procedures carried out in the conventional Max-Log-MAP algorithm are performed in parallel, and well formulated into a set of simple and regular matrix operations, which can therefore considerably speed up the decoding operations and reduce the computational complexity. The matrix Max-Log-MAP algorithms also maintain the advantage of the general logarithmic MAP like algorithms in avoiding complex numerical representation problems. They particularly facilitate the implementations of the logarithmic MAP like algorithms in special-purpose parallel processing VLSI hardware architectures. The m...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...
A new algorithm for the LogMAP decoding of linear block codes is considered. The decoding complexity...
SUMMARY As turbo decoding is a highly memory-intensive algorithm consuming large power, a major issu...
The symbol-by-symbol maximum a posteriori (MAP) known also as BCJR algorithm is described. The logar...
Abstract—This paper presents the Max Log Maximum a Posteriori (MAX Log MAP) architecture which influ...
This paper proposes a SIMD technique to implement efficiently the Max-Log-MAP algorithm on a DSP [2]...
AbstractIn the area of wireless communication system, researchers are concentrating on powerful forw...
Abstract|Most implementations of turbo decoding make use of the so-called \log-MAP algorithm", ...
Abstract. In this paper, a new method to reduce up to 90 % of the memory necessary (for a four memor...
Partial Unit Memory (PUM) codes have excellent distance properties and we show how to construct recu...
Turbo codes play an important role in making communications systems more efficient and reliable. Thi...
This paper proposes a new soft-input soft-output decoding algorithm particularly suited for low-comp...
The use of turbo codes enhances the data transmission efficiency and optimizes the performance of a ...
This paper proposes two novel methods to simply Logarithmic Maximum a posteriori (Log-MAP) algorithm...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...
A new algorithm for the LogMAP decoding of linear block codes is considered. The decoding complexity...
SUMMARY As turbo decoding is a highly memory-intensive algorithm consuming large power, a major issu...
The symbol-by-symbol maximum a posteriori (MAP) known also as BCJR algorithm is described. The logar...
Abstract—This paper presents the Max Log Maximum a Posteriori (MAX Log MAP) architecture which influ...
This paper proposes a SIMD technique to implement efficiently the Max-Log-MAP algorithm on a DSP [2]...
AbstractIn the area of wireless communication system, researchers are concentrating on powerful forw...
Abstract|Most implementations of turbo decoding make use of the so-called \log-MAP algorithm", ...
Abstract. In this paper, a new method to reduce up to 90 % of the memory necessary (for a four memor...
Partial Unit Memory (PUM) codes have excellent distance properties and we show how to construct recu...
Turbo codes play an important role in making communications systems more efficient and reliable. Thi...
This paper proposes a new soft-input soft-output decoding algorithm particularly suited for low-comp...
The use of turbo codes enhances the data transmission efficiency and optimizes the performance of a ...
This paper proposes two novel methods to simply Logarithmic Maximum a posteriori (Log-MAP) algorithm...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...
A new algorithm for the LogMAP decoding of linear block codes is considered. The decoding complexity...
SUMMARY As turbo decoding is a highly memory-intensive algorithm consuming large power, a major issu...