Tail sums of convergent series of independent random variables

Andrew D. Barbour

doi:10.1017/S0305004100048581

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Let X1, X2, … be a sequence of independent random variables such that, for each n ≥ 1, EXn = 0 and and assume that then converges almost surely as N → ∞. Let and let Fn(x) denote the distribution function of Xn. Loynes (2) observed that the sequence {Sn} is a reversed martingale, and applied his central limit theorem to it: however, stronger results are obtainable, in precise duality with the classical theory of partial sums of independent random variables. These results describe the fluctuations of the sequence {Sn}, and hence the way in which converges to its limit.

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Tail sums of convergent series of independent random variables

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Tail sums of convergent series of independent random variables

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