A simplified branch metric and add-compare-select (ACS) unit is presented for use in trellis-based decoding architectures. The simplification is based on a complementary property of best feedforward and some systematic feedback encoders. As a result, one adder is saved in every other ACS unit. Furthermore, only half the branch metrics have to be calculated. It is shown that this simplification becomes especially beneficial for rate 1/2 convolutional codes. Consequently, area and power consumption will be reduced in a hardware implementation
We propose a new reduced-complexity iterative decoding algorithm. The main concept is to approximate...
In principle, the coding gain of a digital communications system can be improved through the use of ...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
Improved add-compare-select and branch metric units are presented to reduce the complexity in the im...
Abstract — Improved add-compare-select and branch metric units are presented to reduce the complexit...
Two simplifications for trellis decoding blocks are analyzed in terms of hardware efficiency. Both a...
Trellis decoding is widely used, in this present day of communication and data storage, in a wide va...
A flexible channel decoding platform should be able to operate in varying communication scenarios, a...
Trellis decoding is a popular method to recover encoded information corrupted during transmission ov...
Error correcting codes are of paramount importance for reliable communications. By adding redundanc...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
AbstractViterbi algorithm is the most popular algorithm used to decode the convolution code, but its...
The decoding problem for block codes on the two-user binary adder channel is discussed, and a decodi...
Viterbi algorithm is the most popular algorithm used to decode the convolution code, but its computa...
By observing the structure of the decoder’s trellis a new, non-iterative turbo-decoder based on a su...
We propose a new reduced-complexity iterative decoding algorithm. The main concept is to approximate...
In principle, the coding gain of a digital communications system can be improved through the use of ...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...
Improved add-compare-select and branch metric units are presented to reduce the complexity in the im...
Abstract — Improved add-compare-select and branch metric units are presented to reduce the complexit...
Two simplifications for trellis decoding blocks are analyzed in terms of hardware efficiency. Both a...
Trellis decoding is widely used, in this present day of communication and data storage, in a wide va...
A flexible channel decoding platform should be able to operate in varying communication scenarios, a...
Trellis decoding is a popular method to recover encoded information corrupted during transmission ov...
Error correcting codes are of paramount importance for reliable communications. By adding redundanc...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
AbstractViterbi algorithm is the most popular algorithm used to decode the convolution code, but its...
The decoding problem for block codes on the two-user binary adder channel is discussed, and a decodi...
Viterbi algorithm is the most popular algorithm used to decode the convolution code, but its computa...
By observing the structure of the decoder’s trellis a new, non-iterative turbo-decoder based on a su...
We propose a new reduced-complexity iterative decoding algorithm. The main concept is to approximate...
In principle, the coding gain of a digital communications system can be improved through the use of ...
International audienceTurbo codes are proposed in most of the advanced digital communication standar...