The process of turbo-code decoding starts with the formation of a posteriori probabilities (APPs) for each data bit, which is followed by choosing the data-bit value that corresponds to the maximum a posteriori (MAP) probability for that data bit. Upon reception of a corrupted code-bit sequence, the process of decision making with APPs allows the MAP algorithm to determine the most likely information bit to have been transmitted at each bit time
Motivated by the importance of hardware implementation in practical turbo decoders, a simplified, ye...
International audienceThis paper proposes an improved Logarithmic Maximum A Posteriori (Log-MAP) alg...
Turbo codes play an important role in making communications systems more efficient and reliable. Thi...
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...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...
AbstractIn the area of wireless communication system, researchers are concentrating on powerful forw...
The user cooperation technique called, coded cooperation, where cooperation is achieved through chan...
A simple but effective technique to improve the performance of the Max-Log-MAP algorithm is to scal...
The use of turbo codes enhances the data transmission efficiency and optimizes the performance of a ...
The authors study a log-maximum a posteriori (MAP) algorithm for use with turbo-coded systems incorp...
We present a new decoding technique for double-binary turbo codes, such as in the Digital Video Broa...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
In his 1948 paper [1], Shannon defined the limits of a communica-tion system. He proved that there e...
An algorithm for decoding turbo codes that combines conventional turbo decoding and list sequence (L...
Motivated by the importance of hardware implementation in practical turbo decoders, a simplified, ye...
International audienceThis paper proposes an improved Logarithmic Maximum A Posteriori (Log-MAP) alg...
Turbo codes play an important role in making communications systems more efficient and reliable. Thi...
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...
The iterative nature of turbo-decoding algorithms increases their complexity compare to conventional...
AbstractIn the area of wireless communication system, researchers are concentrating on powerful forw...
The user cooperation technique called, coded cooperation, where cooperation is achieved through chan...
A simple but effective technique to improve the performance of the Max-Log-MAP algorithm is to scal...
The use of turbo codes enhances the data transmission efficiency and optimizes the performance of a ...
The authors study a log-maximum a posteriori (MAP) algorithm for use with turbo-coded systems incorp...
We present a new decoding technique for double-binary turbo codes, such as in the Digital Video Broa...
In the advent of very high data rates of the upcoming 3G long-term evolution telecommunication syste...
In his 1948 paper [1], Shannon defined the limits of a communica-tion system. He proved that there e...
An algorithm for decoding turbo codes that combines conventional turbo decoding and list sequence (L...
Motivated by the importance of hardware implementation in practical turbo decoders, a simplified, ye...
International audienceThis paper proposes an improved Logarithmic Maximum A Posteriori (Log-MAP) alg...
Turbo codes play an important role in making communications systems more efficient and reliable. Thi...