Rigidity, graphs and Hausdorff dimension

N. Chatzikonstantinou, A. Iosevich, S. Mkrtchyan, J. Pakianathan

Published 2017-08-20Version 1

For a compact set $E \subset \mathbb R^d$ and a connected graph $G$ on $k+1$ vertices, we define a $G$-framework to be a collection of $k+1$ points in $E$ such that the distance between a pair of points is specified if the corresponding vertices of $G$ are connected by an edge. We regard two such frameworks as equivalent if the specified distances are the same. We show that in a suitable sense the set of equivalences of such frameworks naturally embeds in ${\mathbb R}^m$ where $m$ is the number of "essential" edges of $G$. We prove that there exists a threshold $s_k<d$ such that if the Hausdorff dimension of $E$ is greater than $s_k$, then the $m$-dimensional Hausdorff measure of the set of equivalences of $G$-frameworks is positive. The proof relies on combinatorial, topological and analytic considerations.