The Bidirectional Efficient Algorithm for Searching code Trees (BEAST), which is an algorithm to efficiently determine the free distance and spectral components of convolutional encoders, is implemented for the Cell Broadband Engine Architecture, efficiently utilizing the underlying hardware. Exhaustive and random searches are carried out, presenting new rate R=1/2 convolutional encoding matrices with memory m=26 - 29 and larger free distances and/or fewer spectral components than previously known encoding matrices of same rate and complexity. The main result of this paper consists in determining the previously unknown optimum free distance convolutional code with memory m=26
We can provide unequal error protection (UEP) by the properties of convolutional code encoder. The o...
Tail-biting convolutional codes (TBCCs) have become a research hotspot in the short-block-length reg...
Tabulations of binary systematic and nonsystematic polynomial convolutional encoders with an optimum...
The class of error-correcting convolutional codes is commonly used for reliable data transmission in...
When searching for convolutional codes and tailbiting codes of high complexity it is of vital import...
BEAST is a bidirectional efficient algorithm for searching trees. In this correspondence, BEAST is e...
New rate-compatible convolutional (RCC) codes with high constraint lengths and a wide range of code ...
BEAST is a Bidirectional Efficient Algorithm for Searching code Trees. In this paper, it is used for...
A new method to design good unit-memory convolutional codes is presented. It is based on the decompo...
It has been shown that convolutional codes are widely used, along with various decoding methods, to ...
A unified approach to search for and optimize codes determined by their sparse parity-check matrices...
In order to communicate reliably and to reduce the required transmitter power, NASA uses coded commu...
The rapid advancement in the capacity and reliability of data storage technology has allowed for the...
Many communication systems obtain enhanced performance by using concatenated coding schemes. Turbo c...
such that there exists a binary convolutional code of block length �, dimension � 0 �, constraint le...
We can provide unequal error protection (UEP) by the properties of convolutional code encoder. The o...
Tail-biting convolutional codes (TBCCs) have become a research hotspot in the short-block-length reg...
Tabulations of binary systematic and nonsystematic polynomial convolutional encoders with an optimum...
The class of error-correcting convolutional codes is commonly used for reliable data transmission in...
When searching for convolutional codes and tailbiting codes of high complexity it is of vital import...
BEAST is a bidirectional efficient algorithm for searching trees. In this correspondence, BEAST is e...
New rate-compatible convolutional (RCC) codes with high constraint lengths and a wide range of code ...
BEAST is a Bidirectional Efficient Algorithm for Searching code Trees. In this paper, it is used for...
A new method to design good unit-memory convolutional codes is presented. It is based on the decompo...
It has been shown that convolutional codes are widely used, along with various decoding methods, to ...
A unified approach to search for and optimize codes determined by their sparse parity-check matrices...
In order to communicate reliably and to reduce the required transmitter power, NASA uses coded commu...
The rapid advancement in the capacity and reliability of data storage technology has allowed for the...
Many communication systems obtain enhanced performance by using concatenated coding schemes. Turbo c...
such that there exists a binary convolutional code of block length �, dimension � 0 �, constraint le...
We can provide unequal error protection (UEP) by the properties of convolutional code encoder. The o...
Tail-biting convolutional codes (TBCCs) have become a research hotspot in the short-block-length reg...
Tabulations of binary systematic and nonsystematic polynomial convolutional encoders with an optimum...