Assouad dimension

In mathematics — specifically, in fractal geometry — the Assouad dimension is a definition of fractal dimension for subsets of a metric space. It was introduced by Patrice Assouad in his 1977 PhD thesis and later published in 1979,^[1] although the same notion had been studied in 1928 by Georges Bouligand.^[2] As well as being used to study fractals, the Assouad dimension has also been used to study quasiconformal mappings and embeddability problems.

The Assouad dimension of ${\displaystyle X,d_A(X)}$, is the infimum of all ${\displaystyle s}$ such that ${\displaystyle (X,\varsigma )}$ is ${\displaystyle (M,s)}$-homogeneous for some ${\displaystyle M\ge 1}$.^[3]

Let ${\displaystyle (X,d)}$ be a metric space, and let E be a non-empty subset of X. For r > 0, let ${\displaystyle N_r(E)}$ denote the least number of metric open balls of radius less than or equal to r with which it is possible to cover the set E. The Assouad dimension of E is defined to be the infimal ${\displaystyle \alpha \ge 0}$ for which there exist positive constants C and ${\displaystyle \rho }$ so that, whenever $${\displaystyle 0<r<R\le \rho ,}$$ the following bound holds: $${\displaystyle \underset{x\in E}{\sup }{N}_r(B_R(x)\cap E)\le C{\left(\frac{R}{r}\right)}^{\alpha }.}$$

The intuition underlying this definition is that, for a set E with "ordinary" integer dimension n, the number of small balls of radius r needed to cover the intersection of a larger ball of radius R with E will scale like (R/r)ⁿ.

• The Assouad dimension of a metric space is always greater than or equal to its Assouad–Nagata dimension.^[4]
• The Assouad dimension of a metric space is always greater than or equal to its upper box dimension, which in turn is greater than or equal to the Hausdorff dimension.^[5]
• The Lebesgue covering dimension of a metrizable space X is the minimal Assouad dimension of any metric on X. In particular, for every metrizable space there is a metric for which the Assouad dimension is equal to the Lebesgue covering dimension.^[5]

• Fraser, Jonathan M. (2020). Assouad Dimension and Fractal Geometry. Cambridge University Press. doi:10.1017/9781108778459. ISBN 9781108478656. 

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