High Order Expansion Method for Kuiper's Vn Statistic in Goodness-of-fit Test
Abstract
Kuiper's Vn statistic, a measure for comparing the difference of ideal distribution and empirical distribution, is of great significance in the goodness-of-fit test. However, Kuiper's formulae for computing the cumulative distribution function, false positive probability and the upper tail quantile of Vn can not be applied to the case of small sample capacity n since the approximation error is O(n-1). In this work, our contributions lie in three perspectives: firstly the approximation error is reduced to O(n-(k+1)/2) where k is the expansion order with the high order expansion for the exponent of differential operator; secondly, a novel high order formula with approximation error O(n-3) is obtained by massive calculations; thirdly, the fixed-point algorithms are designed for solving the Kuiper pair of critical values and upper tail quantiles based on the novel formula. The high order expansion method for Kuiper's Vn-statistic is applicable for various applications where there are more than five samples of data. The principles, algorithms and code for the high order expansion method are attractive for the goodness-of-fit test.\\ Keywords: Goodness-of-fit Methods, Kuiper's statistic, Quantile estimation, Algorithm design, High order expansion (HOE)
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