Quantization dimensions for inhomogeneous bi-Lipschitz Iterated Function Systems

Abstract

Let be a Borel probability measure on a d-dimensional Euclidean space Rd, d≥ 1, with a compact support, and let (p0, p1, p2, …, pN) be a probability vector with pj>0 for 0≤ j≤ N. Let \Sj: 1≤ j≤ N\ be a set of contractive mappings on Rd. Then, a Borel probability measure μ on Rd such that μ=Σj=1N pjμ Sj-1+p0 is called an inhomogeneous measure, also known as a condensation measure on Rd. For a given r∈ (0, +∞), the quantization dimension of order r, if it exists, denoted by Dr(μ), of a Borel probability measure μ on Rd represents the speed at which the nth quantization error of order r approaches to zero as the number of elements n in an optimal set of n-means for μ tends to infinity. In this paper, we investigate the quantization dimension for such a condensation measure.