A Viterbi decoder's performance loss due to quantizing data from the additive white Gaussian noise (AWGN) channel is studied. An optimal quantization scheme and branch metric calculation method are presented. The uniformly quantized channel capacity C(sub u)(q) is used to determine the smallest number of quantization bits q that does not cause a significant loss. The quantizer stepsize which maximizes C(sub u)(q) almost minimizes the decoder bit error rate (BER). However, a slightly larger stepsize is better, like the value that minimizes the Bhattacharyya bound. The range and renormalization of state metrics is analyzed, in particular for K = 15 decoders such as the Big Viterbi Decoder (BVD) for the Galileo mission. These results are requi...
A systolic Viterbi decoder for convolutional codes is developed. This decoder uses the trace-back me...
Error-correcting convolution codes provide a proven mechanism to limit the effects of noise in digit...
The Galileo low-gain antenna mission will be supported by a coding system that uses a (14,1/4) inner...
Practical Viterbi decoders often fall significantly short of full maximum likelihood decoding perfor...
Concepts involved in determining the performance of coded digital communications systems are introdu...
Convolutional encoding with Viterbi decoding is a FEC technique that is particularly suited to a cha...
AbstractThe minimum bit width of the path metrics at the premise of not affecting the performance ar...
Several methods for realizing erasure declaring Viterbi decoders for the (7,1/2) NASA code are discu...
A recursive procedure is derived for decoding of rate R=1/n binary convolutional codes which minimiz...
The vision of wireless communication is to provide high-speed and high-quality exchange of informati...
The design of Viterbi decoders for signals in noise modeled using the symmetric α-stable distributio...
AbstractThis paper describes the design of Viterbi decoding algorithm and presents an implementation...
Computer simulation results are presented on the performance of convolutional codes of constraint le...
Decoding results are described for long decoding runs of Galileo's convolutional codes. A 1 k-bit/se...
Abstract—In 1995, Best et al. published a formula for the exact bit error probability for Viterbi de...
A systolic Viterbi decoder for convolutional codes is developed. This decoder uses the trace-back me...
Error-correcting convolution codes provide a proven mechanism to limit the effects of noise in digit...
The Galileo low-gain antenna mission will be supported by a coding system that uses a (14,1/4) inner...
Practical Viterbi decoders often fall significantly short of full maximum likelihood decoding perfor...
Concepts involved in determining the performance of coded digital communications systems are introdu...
Convolutional encoding with Viterbi decoding is a FEC technique that is particularly suited to a cha...
AbstractThe minimum bit width of the path metrics at the premise of not affecting the performance ar...
Several methods for realizing erasure declaring Viterbi decoders for the (7,1/2) NASA code are discu...
A recursive procedure is derived for decoding of rate R=1/n binary convolutional codes which minimiz...
The vision of wireless communication is to provide high-speed and high-quality exchange of informati...
The design of Viterbi decoders for signals in noise modeled using the symmetric α-stable distributio...
AbstractThis paper describes the design of Viterbi decoding algorithm and presents an implementation...
Computer simulation results are presented on the performance of convolutional codes of constraint le...
Decoding results are described for long decoding runs of Galileo's convolutional codes. A 1 k-bit/se...
Abstract—In 1995, Best et al. published a formula for the exact bit error probability for Viterbi de...
A systolic Viterbi decoder for convolutional codes is developed. This decoder uses the trace-back me...
Error-correcting convolution codes provide a proven mechanism to limit the effects of noise in digit...
The Galileo low-gain antenna mission will be supported by a coding system that uses a (14,1/4) inner...