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 Probability Surveys > Vol. 8 (2011) open journal systems 


A basic theory of Benford’s Law

Arno Berger, University of Alberta
Theodore P. Hill, Georgia Institute of Technology


Abstract
Drawing from a large, diverse body of work, this survey presents a comprehensive and unified introduction to the mathematics underlying the prevalent logarithmic distribution of significant digits and significands, often referred to as Benford’s Law (BL) or, in a special case, as the First Digit Law. The invariance properties that characterize BL are developed in detail. Special attention is given to the emergence of BL in a wide variety of deterministic and random processes. Though mainly expository in nature, the article also provides strengthened versions of, and simplified proofs for, many key results in the literature. Numerous intriguing problems for future research arise naturally.

AMS 2000 subject classifications: Primary 60-01, 11K06, 37M10, 39A60; secondary 37A45, 60F15, 62E10.

Keywords: Benford’s Law, significant digits, uniform distribution mod 1, scale-invariance, base-invariance, sum-invariance, shadowing, difference equation, random probability measure, mixture of distributions.

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Full Text: PDF
Berger, Arno, Hill, Theodore P., A basic theory of Benford’s Law, Probability Surveys, 8, (2011), 1-126 (electronic). DOI: 10.1214/11-PS175.

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