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引用次数: 2
摘要
本文研究了b∈{1}的慢变对数序列(logbn)的分布渐近性。已知(logb n)不是模1的均匀分布,它的极限集由一组具有常数logb的平移指数分布组成。与作者正在进行的关于一类缓慢变化序列的收敛速率的一般结果相比,我们得到了关于(w. r. t.)在圆上的Kantorovich度量的收敛速率的改进上估计(logN/ n\sqrt{\log}
Abstract This paper studies the distributional asymptotics of the slowly changing sequence of logarithms (logb n) with b ∈ \ {1}. It is known that (logb n) is not uniformly distributed modulo one, and its omega limit set is composed of a family of translated exponential distributions with constant log b. An improved upper estimate ( logN/N \sqrt {\log N} /N ) is obtained for the rate of convergence with respect to (w. r. t.)the Kantorovich metric on the circle, compared to the general results on rates of convergence for a class of slowly changing sequences in the author’s companion in-progress work. Moreover, a sharp rate of convergence (log N/N)w. r. t. the Kantorovich metric on the interval [0, 1], is derived. As a byproduct, the rate of convergence w.r.t. the discrepancy metric (or the Kolmogorov metric) turns out to be (log N/N) as well, which verifies that an upper bound for this rate derived in [Ohkubo, Y.—Strauch, O.: Distribution of leading digits of numbers, Unif. Distrib. Theory, 11 (2016), no.1, 23–45.] is sharp.
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