# On the asymptotic quantization error for the doubling measures on Moran   sets

**Authors:** Sanguo Zhu

arXiv: 1908.00202 · 2019-08-02

## TL;DR

This paper investigates the asymptotic behavior of quantization errors for doubling measures supported on Moran sets, establishing a weak form of Gersho's conjecture under certain conditions.

## Contribution

It proves that for doubling measures on Moran sets, the minimal and maximal integral quantities are asymptotically proportional to the quantization error, confirming a weak version of Gersho's conjecture.

## Key findings

- Asymptotic equivalence between integral quantities and quantization error.
- Validation of a weak Gersho's conjecture for Moran set measures.
- Establishment of proportionality under open set condition.

## Abstract

We study the quantization errors for the doubling probability measures $\mu$ which are supported on a class of Moran sets $E\subset\mathbb{R}^q$. For each $n\geq 1$, let $\alpha_n$ be an arbitrary $n$-optimal set for $\mu$ of order $r$ and $\{P_a(\alpha_n)\}_{a\in\alpha_n}$ an arbitrary Voronoi partition with respect to $\alpha_n$. We denote by $I_a(\alpha_n,\mu)$ the integral $\int_{P_a(\alpha_n)}d(x,a)^rd\mu(x)$ and define \begin{eqnarray*} \underline{J}(\alpha_n,\mu):=\min\limits_{a\in\alpha_n}I_a(\alpha_n,\mu),\; \overline{J}(\alpha_n,\mu):=\max\limits_{a\in\alpha_n}I_a(\alpha_n,\mu). \end{eqnarray*} Let $e_{n,r}(\mu)$ denote the $n$th quantization error for $\mu$ of order $r$. Assuming a version of the open set condition for $E$, we prove that \[ \underline{J}(\alpha_n,\mu),\overline{J}(\alpha_n,\mu)\asymp\frac{1}{n}e_{n,r}^r(\mu). \] This result shows that, for the doubling measures on Moran sets $E$, a weak version of Gersho's conjecture holds.

## Full text

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## References

32 references — full list in the complete paper: https://tomesphere.com/paper/1908.00202/full.md

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Source: https://tomesphere.com/paper/1908.00202