FRACTAL DIMENSIONS FOR THE MIXED (κ,s)-RIEMANN–LIOUVILLE FRACTIONAL INTEGRAL OF BIVARIATE FUNCTIONS

Fractals Pub Date : 2024-04-09 DOI:10.1142/s0218348x24500622
B. Q. WANG, W. XIAO
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Abstract

The research object of this paper is the mixed (κ,s)-Riemann–Liouville fractional integral of bivariate functions on rectangular regions, which is a natural generalization of the fractional integral of univariate functions. This paper first indicates that the mixed integral still maintains the validity of the classical properties, such as boundedness, continuity and bounded variation. Furthermore, we investigate fractal dimensions of bivariate functions under the mixed integral, including the Hausdorff dimension and the Box dimension. The main results indicate that fractal dimensions of the graph of the mixed (κ,s)-Riemann–Liouville integral of continuous functions with bounded variation are still two. The Box dimension of the mixed integral of two-dimensional continuous functions has also been calculated. Besides, we prove that the upper bound of the Box dimension of bivariate continuous functions under σ=(σ1,σ2) order of the mixed integral is 3min{σ1κ,σ2κ} where κ>0.

双变量函数混合(κ,s)-里曼-柳维尔差分积分的简化维数
本文的研究对象是矩形区域上双变量函数的混合(κ,s)-黎曼-黎乌韦尔分数积分,它是单变量函数分数积分的自然概括。本文首先指出,混合积分仍然保持了有界性、连续性和有界变化等经典性质的有效性。此外,我们还研究了混合积分下二变量函数的分形维数,包括 Hausdorff 维数和 Box 维数。主要结果表明,有界变化的连续函数的混合(κ,s)-黎曼-黎乌韦尔积分图的分形维数仍然是两个。我们还计算了二维连续函数混合积分的盒维。此外,我们证明了混合积分的σ=(σ1,σ2)阶下二维连续函数的盒维上限为 3-min{σ1κ,σ2κ},其中κ>0。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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