The objective of this paper is two-fold. Initially, we present an analytic technique to rapidly evaluate an approximation to the union bound on the bit error probability of turbo codes. This technique exploits the most significant terms of the union bound, which can be calculated straightforwardly by considering the properties of the constituent convolutional encoders. Subsequently, we use the bound approximation to demonstrate that specific punctured rate-1/2 turbo codes can achieve a lower error floor than that of their rate-1/3 parent codes. In particular, we propose pseudo-random puncturing as a means of improving the bandwidth efficiency of a turbo code and simultaneously lowering its error floor
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
Turbo codes can deliver performance that is very close to the Shannon limit. This report investigate...
Abstract—The objective of this paper is two-fold. Initially, we present an analytic technique to rap...
Abstract—The objective of this paper is two-fold. Initially, we present an analytic technique to rap...
In this paper, we present a simple technique to approximate the performance union bound of a punctur...
It has been observed that particular rate-1/2 partially systematic parallel concatenated convolution...
In this paper we concentrate on rate-1/3 systematic parallel concatenated convolutional codes and th...
Although rate-1/3 turbo codes achieve an outstanding performance in additive white Gaussian noise ch...
We propose and compare some design criteria for the search of good systematic rate-compatible punctu...
We propose and compare some design criteria for the search of good systematic rate-compatible punctu...
A novel approach for the calculation of the transfer function of a terminated punctured convolutiona...
In this article we apply transfer function bounding techniques to obtain upper bounds on the bit-err...
Puncturing is a way of increasing the code rate by deleting one or more parity bits in a code word w...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
Turbo codes can deliver performance that is very close to the Shannon limit. This report investigate...
Abstract—The objective of this paper is two-fold. Initially, we present an analytic technique to rap...
Abstract—The objective of this paper is two-fold. Initially, we present an analytic technique to rap...
In this paper, we present a simple technique to approximate the performance union bound of a punctur...
It has been observed that particular rate-1/2 partially systematic parallel concatenated convolution...
In this paper we concentrate on rate-1/3 systematic parallel concatenated convolutional codes and th...
Although rate-1/3 turbo codes achieve an outstanding performance in additive white Gaussian noise ch...
We propose and compare some design criteria for the search of good systematic rate-compatible punctu...
We propose and compare some design criteria for the search of good systematic rate-compatible punctu...
A novel approach for the calculation of the transfer function of a terminated punctured convolutiona...
In this article we apply transfer function bounding techniques to obtain upper bounds on the bit-err...
Puncturing is a way of increasing the code rate by deleting one or more parity bits in a code word w...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
International audienceThis paper describes the ways to construct turbo codes using a parallel concat...
Turbo codes can deliver performance that is very close to the Shannon limit. This report investigate...