In this thesis, we present low latency general concatenated code structures suitable for parallel processing. We propose parallel decodable serially concatenated codes (PDSCCs) which is a general structure to construct many variants of serially concatenated codes. Using this most general structure we derive parallel decodable serially concatenated convolutional codes (PDSCCCs). Convolutional product codes which are instances of PDSCCCs are studied in detail. PDSCCCs have much less decoding latency and show almost the same performance compared to classical serially concatenated convolutional codes. Using the same idea, we propose parallel decodable turbo codes (PDTCs) which represent a general structure to construct parallel concatenated cod...
Abstract — This paper presents a new turbo coding scheme for high data rate applications. It uses a ...
An improved concatenated code structure, which generalizes parallel and serially concatenated convol...
Decoding delay is an important consideration for the use of turbo codes in practical applications. W...
Abstract — Serial concatenated codes show very good perfor-mance at low signal to noise ratios. Howe...
Parallel concatenated coding schemes employing convolutional codes as constituent codes linked by an...
This chapter provides design, analysis, construction, and performance of the turbo codes, serially c...
This tutorial paper gives an overview of the implementation aspects related to turbo decoders, where...
Reducing the decoding latency of the turbo codes is important to real-time applications. Conventiona...
Abstract — For high data rate applications, the implementation of iterative turbo-like decoders requ...
In order to achieve capacity approaching performance, the use of partial unit memory (PUM) component...
ABSTRACT — In this article we introduce a new class of product codes based on convolutional codes, c...
The encoding, decoding and performance analysis of concatenated partial unit memory (PUM) code struc...
In this article, we introduce a new class of product codes based on convolutional codes, called conv...
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interl...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
Abstract — This paper presents a new turbo coding scheme for high data rate applications. It uses a ...
An improved concatenated code structure, which generalizes parallel and serially concatenated convol...
Decoding delay is an important consideration for the use of turbo codes in practical applications. W...
Abstract — Serial concatenated codes show very good perfor-mance at low signal to noise ratios. Howe...
Parallel concatenated coding schemes employing convolutional codes as constituent codes linked by an...
This chapter provides design, analysis, construction, and performance of the turbo codes, serially c...
This tutorial paper gives an overview of the implementation aspects related to turbo decoders, where...
Reducing the decoding latency of the turbo codes is important to real-time applications. Conventiona...
Abstract — For high data rate applications, the implementation of iterative turbo-like decoders requ...
In order to achieve capacity approaching performance, the use of partial unit memory (PUM) component...
ABSTRACT — In this article we introduce a new class of product codes based on convolutional codes, c...
The encoding, decoding and performance analysis of concatenated partial unit memory (PUM) code struc...
In this article, we introduce a new class of product codes based on convolutional codes, called conv...
A serially concatenated code with interleaver consists of the cascade of an outer encoder, an interl...
In this study, the authors discuss the implementation of a low latency decoding algorithm for turbo ...
Abstract — This paper presents a new turbo coding scheme for high data rate applications. It uses a ...
An improved concatenated code structure, which generalizes parallel and serially concatenated convol...
Decoding delay is an important consideration for the use of turbo codes in practical applications. W...