A Bayesian Approach to Morphological Models Characterization

IF 0.8 4区 计算机科学 Q4 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY
B. Figliuzzi, Antoine Montaux-Lambert, F. Willot, Grégoire Naudin, Pierre Dupuis, B. Querleux, E. Huguet
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引用次数: 0

Abstract

Morphological models are commonly used to describe microstructures observed in heterogeneous materials. Usually, these models depend upon a set of parameters that must be chosen carefully to match experimental observations conducted on the microstructure. A common approach to perform the parameters determination is to try to minimize an objective function, usually taken to be the discrepancy between measurements computed on the simulations and on the experimental observations, respectively. In this article, we present a Bayesian approach for determining the parameters of morphological models, based upon the definition of a posterior distribution for the parameters. A Monte Carlo Markov Chains (MCMC) algorithm is then used to generate samples from the posterior distribution and to identify a set of optimal parameters. We show on several examples that the Bayesian approach allows us to properly identify the optimal parameters of distinct morphological models and to identify potential correlations between the parameters of the models.
形态学模型表征的贝叶斯方法
形态学模型通常用于描述在非均质材料中观察到的微观结构。通常,这些模型依赖于一组必须仔细选择的参数,以匹配对微观结构进行的实验观察。执行参数确定的一种常用方法是尽量使目标函数最小化,目标函数通常被认为是分别在模拟和实验观察中计算的测量值之间的差异。在本文中,我们提出了一种贝叶斯方法来确定形态学模型的参数,基于参数后验分布的定义。然后使用蒙特卡洛马尔可夫链(MCMC)算法从后验分布中生成样本并识别一组最优参数。我们通过几个例子表明,贝叶斯方法使我们能够正确识别不同形态模型的最佳参数,并识别模型参数之间的潜在相关性。
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来源期刊
Image Analysis & Stereology
Image Analysis & Stereology MATERIALS SCIENCE, MULTIDISCIPLINARY-MATHEMATICS, APPLIED
CiteScore
2.00
自引率
0.00%
发文量
7
审稿时长
>12 weeks
期刊介绍: Image Analysis and Stereology is the official journal of the International Society for Stereology & Image Analysis. It promotes the exchange of scientific, technical, organizational and other information on the quantitative analysis of data having a geometrical structure, including stereology, differential geometry, image analysis, image processing, mathematical morphology, stochastic geometry, statistics, pattern recognition, and related topics. The fields of application are not restricted and range from biomedicine, materials sciences and physics to geology and geography.
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