On permutation-invariance of limit theorems

István Berkes; Robert Tichy

doi:10.1016/j.jco.2014.06.001

On permutation-invariance of limit theorems

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Abstract

By a classical principle of probability theory, sufficiently thin subsequences of general sequences of random variables behave like i.i.d. sequences. This observation not only explains the remarkable properties of lacunary trigonometric series, but also provides a powerful tool in many areas of analysis, such as the theory of orthogonal series and Banach space theory. In contrast to i.i.d. sequences, however, the probabilistic structure of lacunary sequences is not permutation-invariant and the analytic properties of such sequences can change after rearrangement. In a previous paper we showed that permutation-invariance of subsequences of the trigonometric system and related function systems is connected with Diophantine properties of the index sequence. In this paper we will study permutation-invariance of subsequences of general r.v. sequences.

Original language	English
Pages (from-to)	372–379
Journal	Journal of Complexity
Volume	31
Issue number	3
Early online date	Jun 2014
DOIs	https://doi.org/10.1016/j.jco.2014.06.001
Publication status	Published - Jun 2015

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Information, Communication & Computing

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Basic - Fundamental (Grundlagenforschung)

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on_permutation-invariance_of_limit_theoremsAccepted author manuscript, 111 KBLicence: CC BY 4.0

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title = "On permutation-invariance of limit theorems",

abstract = "By a classical principle of probability theory, sufficiently thin subsequences of general sequences of random variables behave like i.i.d. sequences. This observation not only explains the remarkable properties of lacunary trigonometric series, but also provides a powerful tool in many areas of analysis, such as the theory of orthogonal series and Banach space theory. In contrast to i.i.d. sequences, however, the probabilistic structure of lacunary sequences is not permutation-invariant and the analytic properties of such sequences can change after rearrangement. In a previous paper we showed that permutation-invariance of subsequences of the trigonometric system and related function systems is connected with Diophantine properties of the index sequence. In this paper we will study permutation-invariance of subsequences of general r.v. sequences.",

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T1 - On permutation-invariance of limit theorems

AU - Berkes, István

AU - Tichy, Robert

PY - 2015/6

Y1 - 2015/6

N2 - By a classical principle of probability theory, sufficiently thin subsequences of general sequences of random variables behave like i.i.d. sequences. This observation not only explains the remarkable properties of lacunary trigonometric series, but also provides a powerful tool in many areas of analysis, such as the theory of orthogonal series and Banach space theory. In contrast to i.i.d. sequences, however, the probabilistic structure of lacunary sequences is not permutation-invariant and the analytic properties of such sequences can change after rearrangement. In a previous paper we showed that permutation-invariance of subsequences of the trigonometric system and related function systems is connected with Diophantine properties of the index sequence. In this paper we will study permutation-invariance of subsequences of general r.v. sequences.

AB - By a classical principle of probability theory, sufficiently thin subsequences of general sequences of random variables behave like i.i.d. sequences. This observation not only explains the remarkable properties of lacunary trigonometric series, but also provides a powerful tool in many areas of analysis, such as the theory of orthogonal series and Banach space theory. In contrast to i.i.d. sequences, however, the probabilistic structure of lacunary sequences is not permutation-invariant and the analytic properties of such sequences can change after rearrangement. In a previous paper we showed that permutation-invariance of subsequences of the trigonometric system and related function systems is connected with Diophantine properties of the index sequence. In this paper we will study permutation-invariance of subsequences of general r.v. sequences.

U2 - 10.1016/j.jco.2014.06.001

DO - 10.1016/j.jco.2014.06.001

M3 - Article

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VL - 31

SP - 372

EP - 379

JO - Journal of Complexity

JF - Journal of Complexity

IS - 3

ER -

On permutation-invariance of limit theorems

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