Multifractal Structure of Irregular Sets via Weighted Random Sequences

Najmeddine Attia; Taoufik Moulahi

doi:10.3390/fractalfract9120793

Multifractal Structure of Irregular Sets via Weighted Random Sequences

Najmeddine Attia
, Taoufik Moulahi

Mathematics

King Faisal University

Research output: Contribution to journal › Article › peer-review

Abstract

We study the multifractal structure of irregular sets arising from Fibonacci-weighted sums of sequences of random variables. Focusing on Cantor-type subsets (Formula presented.) of the unit interval, we construct sequences of free and forced blocks, where the free blocks allow full binary branching and the forced blocks fix the digits, controlling the weighted averages. We prove that these sets can attain full Hausdorff and packing dimension while their Hausdorff measure can vanish. We prove that the packing measure of (Formula presented.) depends sensitively on the growth of the forced blocks. Our construction illustrates the mechanism by which Fibonacci-type weights induce irregularity, providing a probabilistic counterpart to classical multifractal phenomena in dynamical systems.

Original language	English
Article number	793
Journal	Fractal and Fractional
Volume	9
Issue number	12
DOIs	https://doi.org/10.3390/fractalfract9120793
State	Published - Dec 2025

Keywords

Fibonacci sequence
Hausdorff and packing measures and dimensions
strong law of large number
weighted averages and ergodic sums

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10.3390/fractalfract9120793

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abstract = "We study the multifractal structure of irregular sets arising from Fibonacci-weighted sums of sequences of random variables. Focusing on Cantor-type subsets (Formula presented.) of the unit interval, we construct sequences of free and forced blocks, where the free blocks allow full binary branching and the forced blocks fix the digits, controlling the weighted averages. We prove that these sets can attain full Hausdorff and packing dimension while their Hausdorff measure can vanish. We prove that the packing measure of (Formula presented.) depends sensitively on the growth of the forced blocks. Our construction illustrates the mechanism by which Fibonacci-type weights induce irregularity, providing a probabilistic counterpart to classical multifractal phenomena in dynamical systems.",

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AU - Moulahi, Taoufik

PY - 2025/12

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N2 - We study the multifractal structure of irregular sets arising from Fibonacci-weighted sums of sequences of random variables. Focusing on Cantor-type subsets (Formula presented.) of the unit interval, we construct sequences of free and forced blocks, where the free blocks allow full binary branching and the forced blocks fix the digits, controlling the weighted averages. We prove that these sets can attain full Hausdorff and packing dimension while their Hausdorff measure can vanish. We prove that the packing measure of (Formula presented.) depends sensitively on the growth of the forced blocks. Our construction illustrates the mechanism by which Fibonacci-type weights induce irregularity, providing a probabilistic counterpart to classical multifractal phenomena in dynamical systems.

AB - We study the multifractal structure of irregular sets arising from Fibonacci-weighted sums of sequences of random variables. Focusing on Cantor-type subsets (Formula presented.) of the unit interval, we construct sequences of free and forced blocks, where the free blocks allow full binary branching and the forced blocks fix the digits, controlling the weighted averages. We prove that these sets can attain full Hausdorff and packing dimension while their Hausdorff measure can vanish. We prove that the packing measure of (Formula presented.) depends sensitively on the growth of the forced blocks. Our construction illustrates the mechanism by which Fibonacci-type weights induce irregularity, providing a probabilistic counterpart to classical multifractal phenomena in dynamical systems.

KW - Fibonacci sequence

KW - Hausdorff and packing measures and dimensions

KW - strong law of large number

KW - weighted averages and ergodic sums

UR - https://www.scopus.com/pages/publications/105025819104

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DO - 10.3390/fractalfract9120793

M3 - Article

AN - SCOPUS:105025819104

SN - 2504-3110

VL - 9

JO - Fractal and Fractional

JF - Fractal and Fractional

IS - 12

M1 - 793

ER -

Multifractal Structure of Irregular Sets via Weighted Random Sequences

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