Title :
An equivalent Markov model for burst errors in digital channels
Author :
Sivaprakasam, Sivaraman ; Shanmugan, K.S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Kansas Univ., Lawrence, KS, USA
Abstract :
A hidden Markov model for burst errors is specified by a probability transition matrix P, an initial probability vector p, and the state dependent probability of error matrix B. Several procedures are available for estimating P, p and B from a given error (observation) sequence. However, even with some restrictions on the structure of the underlying Markov models, the estimation procedures are computationally intensive particularly when the observation sequence contains long strings of identical symbols. We show that, under some mild assumptions, a Markov model with an arbitrary transition matrix P is equivalent to a Markov model with a unique "block diagonal" transition matrix /spl Lambda/. We also present a computationally very efficient algorithm for estimating /spl Lambda/ from a set of observation using a modified Baum-Welch (1972) algorithm.<>
Keywords :
digital communication; error statistics; estimation theory; hidden Markov models; matrix algebra; probability; telecommunication channels; block diagonal transition matrix; burst errors; digital channels; error observation sequence; estimation procedures; hidden Markov model; initial probability vector; modified Baum-Welch algorithm; probability transition matrix; state dependent error probability matrix; Hidden Markov models; State estimation;
Journal_Title :
Communications, IEEE Transactions on
