In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo codes and repeat accumulate codes and compare the implementation results in terms of maximum available clock speed, resource consumption, error correction performance and the data (information bit) rate. In order to decrease the latency a parallellised decoder structure is introduced for these mentioned codes and the results are obtained by implementing the decoders on a field programmable gate array. The memory collision problem is avoided by using collision-free interleavers. Through a proposed quantisation scheme and normalisation in forward/backward recursions, computational issues are handled for overcoming the overflow and underflow iss...
As a class of high-performance forward error correction codes, turbo codes, which can approach the c...
Abstract — For high data rate applications, the implementation of iterative turbo-like decoders requ...
Turbo-Codes are among the most advanced channel coding schemes and are already part of the 3rd Gener...
Abstract: As a class of high-performance forward error correction codes, turbo codes, which can appr...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
Abstract — This paper presents a new turbo coding scheme for high data rate applications. It uses a ...
Reducing the decoding latency of the turbo codes is important to real-time applications. Conventiona...
International audienceIn turbo decoding of product codes, we propose an algorithm implementation, ba...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
Abstract—This paper introduces a turbo decoder that utilizes multiple soft-in/soft-out (SISO) decode...
Decoding delay is an important consideration for the use of turbo codes in practical applications. W...
This thesis is aimed to implement turbo decoder with various iteratie decoding algorithms, and to co...
As a class of high-performance forward error correction codes, turbo codes, which can approach the c...
Abstract — For high data rate applications, the implementation of iterative turbo-like decoders requ...
Turbo-Codes are among the most advanced channel coding schemes and are already part of the 3rd Gener...
Abstract: As a class of high-performance forward error correction codes, turbo codes, which can appr...
This paper gives a general overview of the implementation aspects of turbo decoders. Although the pa...
Turbo codes are error-correcting codes with performance that is close to the Shannon theoretical lim...
In this paper, we present two new hardware architectures for Turbo Code decoding that combine functi...
Abstract — This paper presents a new turbo coding scheme for high data rate applications. It uses a ...
Reducing the decoding latency of the turbo codes is important to real-time applications. Conventiona...
International audienceIn turbo decoding of product codes, we propose an algorithm implementation, ba...
International audienceIn this paper, we demonstrate how the development of parallel hardware archite...
Abstract—This paper introduces a turbo decoder that utilizes multiple soft-in/soft-out (SISO) decode...
Decoding delay is an important consideration for the use of turbo codes in practical applications. W...
This thesis is aimed to implement turbo decoder with various iteratie decoding algorithms, and to co...
As a class of high-performance forward error correction codes, turbo codes, which can approach the c...
Abstract — For high data rate applications, the implementation of iterative turbo-like decoders requ...
Turbo-Codes are among the most advanced channel coding schemes and are already part of the 3rd Gener...