In this paper, we provide a new approach to the analytical estimation of the bit-error rate (BER) for convolutional codes for Viterbi decoding in the binary symmetric channel (BSC). The expressions we obtained for lower and upper BER bounds are based on the active distances of the code and their distance spectrum. The estimates are derived for convolutional codes with the rate $R=\frac{1}{2}$ but can be easily generalized for any convolutional code with rate $R=\frac 1n$ and systematic encoder. The suggested approach is not computationally expensive for any crossover probability of BSC channel and convolutional code memory, and it allows to obtain precise estimates of BER
This In this paper, Convolutional coder software implementation using Viterbi decoding algorithm f...
A recursive procedure is derived for decoding of rate R=1/n binary convolutional codes which minimiz...
When concatenated coding schemes operate near channel capacity their component encoders may operate ...
Abstract—In 1995, Best et al. published a formula for the exact bit error probability for Viterbi de...
Forty years ago, Viterbi published upper bounds on both the first error event (burst error) and bit ...
In 1995, Best et al. published a formula for the exact bit error probability for Viterbi decoding of...
An explicit method is given to evaluate Viterbi's union bounds on both the first event error probabi...
In 1995, Best et al. published a formula for the exact bit error probability for Viterbi decoding of...
New analytical bounds are developed for the probability of code-word error in a communication system...
This thesis is a study of error-correcting codes for reliable communication in the presence of extre...
Convolutional codes are characterized by a trellis structure. Maximum-likelihood decoding is charact...
Any communication scheme's principal goal is providing error-free data transmission. By increasing t...
Decoding convolutional codes with binary digital modulation in intersymbol interference (ISI) channe...
A brief introduction to convolutional coding is given. The active distances are reviewed and shown t...
Convolutional encoding with Viterbi decoding is a FEC technique that is particularly suited to a cha...
This In this paper, Convolutional coder software implementation using Viterbi decoding algorithm f...
A recursive procedure is derived for decoding of rate R=1/n binary convolutional codes which minimiz...
When concatenated coding schemes operate near channel capacity their component encoders may operate ...
Abstract—In 1995, Best et al. published a formula for the exact bit error probability for Viterbi de...
Forty years ago, Viterbi published upper bounds on both the first error event (burst error) and bit ...
In 1995, Best et al. published a formula for the exact bit error probability for Viterbi decoding of...
An explicit method is given to evaluate Viterbi's union bounds on both the first event error probabi...
In 1995, Best et al. published a formula for the exact bit error probability for Viterbi decoding of...
New analytical bounds are developed for the probability of code-word error in a communication system...
This thesis is a study of error-correcting codes for reliable communication in the presence of extre...
Convolutional codes are characterized by a trellis structure. Maximum-likelihood decoding is charact...
Any communication scheme's principal goal is providing error-free data transmission. By increasing t...
Decoding convolutional codes with binary digital modulation in intersymbol interference (ISI) channe...
A brief introduction to convolutional coding is given. The active distances are reviewed and shown t...
Convolutional encoding with Viterbi decoding is a FEC technique that is particularly suited to a cha...
This In this paper, Convolutional coder software implementation using Viterbi decoding algorithm f...
A recursive procedure is derived for decoding of rate R=1/n binary convolutional codes which minimiz...
When concatenated coding schemes operate near channel capacity their component encoders may operate ...