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http://dx.doi.org/10.5351/CKSS.2009.16.5.841

Precise Rates in Complete Moment Convergence for Negatively Associated Sequences  

Ryu, Dae-Hee (Department of Computer Science, ChungWoon University)
Publication Information
Communications for Statistical Applications and Methods / v.16, no.5, 2009 , pp. 841-849 More about this Journal
Abstract
Let {$X_n$, n ${\ge}$ 1} be a negatively associated sequence of identically distributed random variables with mean zeros and positive finite variances. Set $S_n$ = ${\Sigma}^n_{i=1}\;X_i$. Suppose that 0 < ${\sigma}^2=EX^2_1+2{\Sigma}^{\infty}_{i=2}\;Cov(X_1,\;X_i)$ < ${\infty}$. We prove that, if $EX^2_1(log^+{\mid}X_1{\mid})^{\delta}$ < ${\infty}$ for any 0< ${\delta}{\le}1$, then $\lim_{{\epsilon}\downarrow0}{\epsilon}^{2{\delta}}\sum_{{n=2}}^{\infty}\frac{(logn)^{\delta-1}}{n^2}ES^2_nI({\mid}S_n{\mid}\geq{\epsilon}{\sigma}\sqrt{nlogn}=\frac{E{\mid}N{\mid}^{2\delta+2}}{\delta}$, where N is the standard normal random variable. We also prove that if $S_n$ is replaced by $M_n=max_{1{\le}k{\le}n}{\mid}S_k{\mid}$ then the precise rate still holds. Some results in Fu and Zhang (2007) are improved to the complete moment case.
Keywords
Precise rates; complete moment convergence; negatively associated; law of the logarithm;
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Times Cited By KSCI : 1  (Citation Analysis)
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