Probabilistic Analysis of RRT Trees

Abstract

This thesis presents analysis of the properties and run-time of the Rapidly-exploring Random Tree (RRT) algorithm. It is shown that the time for the RRT with stepsize ε to grow close to every point in the d-dimensional unit cube is (1εd (1ε)). Also, the time it takes for the tree to reach a region of positive probability is O(ε-32). Finally, a relationship is shown to the Nearest Neighbour Tree (NNT). This relationship shows that the total Euclidean path length after n steps is O( n) and the expected height of the tree is bounded above by (e + o(1)) n.