Connectedness of the attractor of an iterated function system

• Main Author: Sandoghdar, Farid
• Format: Others
• Published: 1995
• Online Access: http://spectrum.library.concordia.ca/2833/1/MM05129.pdf; Sandoghdar, Farid <http://spectrum.library.concordia.ca/view/creators/Sandoghdar=3AFarid=3A=3A.html> (1995) Connectedness of the attractor of an iterated function system. Masters thesis, Concordia University.

We will study the action of a finite family, $\{ F\sb i\} \sbsp {i=1}{m},$ of contractive mappings on a compact subset of a complete metric space. The family $\{ F\sb i\} \sbsp {i=1}{m},$ is known as an iterated function system (IFS). Although many of the results presented here can be generalized to an arbitrary complete metric space, we will restrict ourselves to the metric space ($\IR\sp{n}$, Euclidean distance). Using the notion of Minkowski sausages, we will define a distance function, h (the Hausdorff distance), on the space of all compact subsets of $\IR\sp{n}$ denoted by ${\cal H}(\IR\sp{n})$. The pair (${\cal H}(\IR\sp n), h)$ forms a complete metric space in which we will establish the existence of a unique "point" ${\cal A}$ (compact subset of $\IR\sp n)$ satisfying the equation $\cup \sbsp{i=1}{m}\ F\sb i({\cal A}) = {\cal A}.$ We will explore various characterizations of the compact set ${\cal A}$ which is referred to as the attractor of the IFS $\{ F\sb i\} \sbsp {i=1}{m}$. The topological properties of an attractor depend on the contractive mappings constituting the corresponding IFS. The main purpose of this study is to investigate conditions under which an attractor will have certain connectivity properties. Among these properties will be considered total disconnectedness, connectedness and arcwise connectedness. We will see that in fact, the notions of connectedness and arcwise connectedness coincide in the case of an attractor. Some other topological properties of attractors including property S, local connectedness and semi-local connectedness will also be discussed.