Title :
Estimating the Order of an Autoregressive Model Using Normalized Maximum Likelihood
Author :
Schmidt, Daniel F. ; Makalic, Enes
Author_Institution :
Centre for MEGA Epidemiology, Univ. of Melbourne, Carlton, VIC, Australia
Abstract :
This paper examines the estimation of the order of an autoregressive model using the minimum description length principle. A closed form for an approximation of the parametric complexity of the autoregressive model class is derived by exploiting a relationship between coefficients and partial autocorrelations. The parametric complexity over the complete parameter space is found to diverge. A model selection criterion is subsequently derived by bounding the parameter space, and simulations suggest that it compares well against standard autoregressive order selection techniques in terms of correct order identification and prediction error.
Keywords :
Gaussian processes; autoregressive moving average processes; maximum likelihood estimation; autoregressive model; minimum description length principle; model selection criterion; normalized maximum likelihood; Complexity theory; Computational modeling; Correlation; Data models; Maximum likelihood estimation; Numerical models; Stochastic processes; Gaussian autoregressive processes; maximum likelihood estimation; minimum description length; normalized maximum likelihood;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2010.2091956
