The asymptotic distribution of serial correlation coefficients for autoregressive processes with dependent residuals

Abstract

In a recent paper (3) Diananda has given an extension of the central limit theorem to stationary sequences of random variables {Y_t} (t = 1,2,3,…), which are m–dependent, i.e. are such that m + 1 is the smallest integer r having the property that two sets of the Y's are independent whenever the suffix of any member of one set differs from that of any member of the other set by at least r. As Diananda points out, this can be used to show that for linear autoregressive processes with m–dependent residuals, the joint distribution of any finite number of the forms which occur in Bartlett and Diananda's goodness of fit test (see (1)) is asymptotically multivariate normal, provided also that the fourth moment of the residuals is finite. These forms are linear functions of the sample serial correlations r_t, and if the autoregressive process is defined by they may be denoted by , where E_t being the usual shift operator such that for any function f_t defined for integral t, In particular, when , as for a moving average process, the joint distribution of any finite number of the r_t, is asymptotically multivariate normal.