
arXiv: 1312.7150
We give the cumulative distribution function of M n = max X 1 , ... , X n , the maximum of a sequence of n observations from an ARMA(1, 1) process. Solutions are first given in terms of repeated integrals and then for the case, where the underlying random variables are absolutely continuous. The distribution of M n is then given as a weighted sum of the n th powers of the eigenvalues of a non-symmetric Fredholm kernel. The weights are given in terms of the left and right eigenfunctions of the kernel. These results are large deviations expansions for estimates, since the maximum need not be standardized to have a limit. In fact, such a limit need not exist.
ARMA(1,1) process, Approximation by operators (in particular, by integral operators), eigenvalues, Mathematics - Statistics Theory, Fredholm integral equations, Fredholm kernel, Statistics Theory (math.ST), Time series, auto-correlation, regression, etc. in statistics (GARCH), Large deviations, Characterization and structure theory of statistical distributions, QA1-939, FOS: Mathematics, Order statistics; empirical distribution functions, cumulative distribution function, Mathematics
ARMA(1,1) process, Approximation by operators (in particular, by integral operators), eigenvalues, Mathematics - Statistics Theory, Fredholm integral equations, Fredholm kernel, Statistics Theory (math.ST), Time series, auto-correlation, regression, etc. in statistics (GARCH), Large deviations, Characterization and structure theory of statistical distributions, QA1-939, FOS: Mathematics, Order statistics; empirical distribution functions, cumulative distribution function, Mathematics
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