# Nonstandard approach to Hausdorff measure theory and an analysis of some   sets of dimension less than $1$

**Authors:** Mee Seong Im

arXiv: 1812.02015 · 2018-12-06

## TL;DR

This paper explores classical and nonstandard methods for Hausdorff measure theory, computes dimensions of fractals, and introduces a new approach to analyze sets with dimensions less than one.

## Contribution

It develops a nonstandard framework for Hausdorff measure theory and applies it to analyze the dimensions of specific fractal sets.

## Key findings

- Computed Hausdorff dimensions of simple and self-similar fractals
- Developed a nonstandard approach to measure theory
- Compared Hausdorff, box-counting, and other fractal dimensions

## Abstract

We study various measure theories using the classical approach and then compute the Hausdorff dimension of some simple objects and self-similar fractals. We then develop a nonstandard approach to these measure theories and examine the Hausdorff measure in more detail. We choose to study Hausdorff measure over any other measures since it is well-defined for all sets, and widely used in many different areas in mathematics, physics, probability theory, and so forth.   Finally we generate a particular set and compute its upper and lower Hausdorff dimension. We compare our set with box-counting dimension and other well-known fractal behaviors to analyze the set in a greater detail.

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Source: https://tomesphere.com/paper/1812.02015