An iterative decoding scheme for woven convolutional codes is presented. It is called pipeline decoding and operates in a window sliding over the received sequence. This exploits the nature of convolutional codes as sequences and suits the concept of convolutional encoding and decoding as a continuous process. The pipeline decoder is analyzed in terms of decoding delay and decoding complexity. Additional interleaving for woven convolutional constructions is introduced by employing a convolutional scrambler. It is shown that some types of interleaving preserve the lower bound on the free distance of the original woven construction. Simulation results for woven convolutional codes are presente
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interl...
We introduce and analyze new constructions of LDPC convolutional codes and their tail-biting version...
Concatenation of several conventional convolutional encoders is a both powerful and practical method...
Encoders for convolutional codes with large free distances can be constructed by combining several l...
Abstract—We present a new class of iteratively decodable turbo-like codes, called braided convolutio...
Woven convolutional codes with one tailbiting component code are studied and their generator matrice...
Abstract — This paper gives an overview of three different classes of convolutional codes that are s...
We present a new class of iteratively decodable turbo-like codes, called braided convolutional codes...
It is shown how the decoding algorithms of Pellikaan and Rosenthal can be coupled to produce a decod...
Two constructions of binary concatenated convolutional codes are considered. In our previous work [P...
In this correspondence the error exponent and the decoding complexity of binary woven convolutional ...
We investigate error propagation in sliding window decoding of braided convolutional codes (BCCs). P...
Many communication systems obtain enhanced performance by using concatenated coding schemes. Turbo c...
We consider a window decoding scheme for Braided Convolutional Codes (BCCs) based on the BCJR algori...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interl...
We introduce and analyze new constructions of LDPC convolutional codes and their tail-biting version...
Concatenation of several conventional convolutional encoders is a both powerful and practical method...
Encoders for convolutional codes with large free distances can be constructed by combining several l...
Abstract—We present a new class of iteratively decodable turbo-like codes, called braided convolutio...
Woven convolutional codes with one tailbiting component code are studied and their generator matrice...
Abstract — This paper gives an overview of three different classes of convolutional codes that are s...
We present a new class of iteratively decodable turbo-like codes, called braided convolutional codes...
It is shown how the decoding algorithms of Pellikaan and Rosenthal can be coupled to produce a decod...
Two constructions of binary concatenated convolutional codes are considered. In our previous work [P...
In this correspondence the error exponent and the decoding complexity of binary woven convolutional ...
We investigate error propagation in sliding window decoding of braided convolutional codes (BCCs). P...
Many communication systems obtain enhanced performance by using concatenated coding schemes. Turbo c...
We consider a window decoding scheme for Braided Convolutional Codes (BCCs) based on the BCJR algori...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interl...
We introduce and analyze new constructions of LDPC convolutional codes and their tail-biting version...