Difference between revisions of "Law of the iterated logarithm"
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A limit theorem in probability theory which is a refinement of the [[Strong law of large numbers|strong law of large numbers]]. Let <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/l/l057/l057740/l0577401.png" /> be a sequence of random variables and let | A limit theorem in probability theory which is a refinement of the [[Strong law of large numbers|strong law of large numbers]]. Let <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/l/l057/l057740/l0577401.png" /> be a sequence of random variables and let | ||
Revision as of 16:02, 4 March 2012
2020 Mathematics Subject Classification: Primary: 60F10 Secondary: 60F15 [MSN][ZBL]
A limit theorem in probability theory which is a refinement of the strong law of large numbers. Let 
be a sequence of random variables and let
 |
For simplicity one assumes that 
has zero median for each 
. While the theorem on the strong law of large numbers deals with conditions under which 
almost surely (
) for 
, where 
is a sequence of numbers, the theorem on the law of the iterated logarithm deals with sequences of numbers 
such that
 | (1) |
or
 | (2) |
Relation (1) is equivalent to
 |
and
 |
for any 
, where 
denotes infinitely often.
Relations of the form of (1) and (2) hold under more restrictive conditions than the estimates implied by the strong law of large numbers. If 
is a sequence of independent random variables having identical distributions with mathematical expectations equal to zero, then
 |
(Kolmogorov's theorem); if the additional condition 
is satisfied, then one has the stronger relation (2), in which
 |
where 
(the Hartman–Wintner theorem).
The first theorem of general type on the law of the iterated logarithm was the following result obtained by A.N. Kolmogorov [1]. Let 
be a sequence of independent random variables with mathematical expectations equal to zero and with finite variances, and let
 |
If 
for 
and if there exists a sequence of positive constants 
such that
 |
then (1) and (2) are satisfied for
 |
In the particular case where 
is a sequence of independent random variables having identical distributions with two possible values, this assertion was derived by A.Ya. Khinchin [2]. J. Marcinkiewicz and A. Zygmund [3] showed that under the conditions of Kolmogorov's theorem one cannot replace 
by 
. W. Feller [4] examined a generalization of Kolmogorov's law of the iterated logarithm for sequences of independent bounded non-identically distributed random variables. See [5] for other generalizations of the law; there is also the following result (see [6]), which is related to the Hartman–Wintner theorem: If 
is a sequence of independent random variables having identical distributions with infinite variances, then
 |
The results obtained on the law of the iterated logarithm for sequences of independent random variables have served as a starting point for numerous researches on the applicability of this law to sequences of dependent random variables and vectors and to random processes.
References
| [1] | A.N. [A.N. Kolmogorov] Kolmogoroff, "Ueber das Gesetz des iterierten Logarithmus" Math. Ann. , 101 (1929) pp. 126–135 |
| [2] | A. [A.Ya. Khinchin] Khintchine, "Ueber einen Satz der Wahrscheinlichkeitsrechnung" Fund. Math. , 6 (1924) pp. 9–20 |
| [3] | J. Marcinkiewicz, A. Zygmund, "Rémarque sur la loi du logarithme itéré" Fund. Math. , 29 (1937) pp. 215–222 |
| [4] | W. Feller, "The general form of the so-called law of the iterated logarithm" Trans. Amer. Math. Soc. , 54 (1943) pp. 373–402 |
| [5] | V. Strassen, "An invariance principle for the law of the iterated logarithm" Z. Wahrsch. Verw. Geb. , 3 (1964) pp. 211–226 |
| [6] | V. Strassen, "A converse to the law of iterated logarithm" Z. Wahrsch. Verw. Geb. , 4 (1965–1966) pp. 265–268 |
| [7] | P. Hartman, A. Wintner, "On the law of the iterated logarithm" Amer. J. Math. , 63 (1941) pp. 169–176 |
| [8] | J. Lamperty, "Probability" , Benjamin (1966) |
| [9] | V.V. Petrov, "Sums of independent random variables" , Springer (1975) (Translated from Russian) |
Comments
References
| [a1] | P. Hall, C.C. Heyde, "Martingale limit theory and its application" , Acad. Press (1980) |
| [a2] | W. Feller, "An introduction to probability theory and its applications" , 1 , Wiley (1968) |
| [a3] | M. Loève, "Probability theory" , Princeton Univ. Press (1963) pp. Chapt. XIV |
Law of the iterated logarithm. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Law_of_the_iterated_logarithm&oldid=11246