Multi-task optimization with Bayesian neural network surrogates for parameter estimation of a simulation model
IF 1.5
3区 数学
Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
引用次数: 0
Abstract
We propose a novel framework for efficient parameter estimation in simulation models, formulated as an optimization problem that minimizes the discrepancy between physical system observations and simulation model outputs. Our framework, called multi-task optimization with Bayesian neural network surrogates (MOBS), is designed for scenarios that require the simultaneous estimation of multiple sets of parameters, each set corresponding to a distinct set of observations, while also enabling fast parameter estimation essential for real-time process monitoring and control. MOBS integrates a heuristic search algorithm, utilizing a single-layer Bayesian neural network surrogate model trained on an initial simulation dataset. This surrogate model is shared across multiple tasks to select and evaluate candidate parameter values, facilitating efficient multi-task optimization. We provide a closed-form parameter screening rule and demonstrate that the expected number of simulation runs converges to a user-specified threshold. Our framework was applied to a numerical example and a semiconductor manufacturing case study, significantly reducing computational costs while achieving accurate parameter estimation.
利用贝叶斯神经网络代理进行多任务优化,以估算仿真模型参数
我们为仿真模型中的高效参数估计提出了一个新框架,该框架被表述为一个优化问题,可最大限度地减少物理系统观测结果与仿真模型输出结果之间的差异。我们的框架名为 "贝叶斯神经网络代理多任务优化(MOBS)",专为需要同时估算多组参数(每组参数对应一组不同的观测值)的情况而设计,同时还能实现实时过程监测和控制所必需的快速参数估算。MOBS 集成了启发式搜索算法,利用在初始模拟数据集上训练的单层贝叶斯神经网络代理模型。该代理模型在多个任务中共享,用于选择和评估候选参数值,从而促进高效的多任务优化。我们提供了一个闭式参数筛选规则,并证明预期模拟运行次数会收敛到用户指定的阈值。我们的框架被应用于一个数值示例和一个半导体制造案例研究,在实现精确参数估计的同时大大降低了计算成本。
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来源期刊
Computational Statistics & Data Analysis
数学-计算机:跨学科应用
CiteScore
3.70
自引率
5.60%
发文量
167
审稿时长
60 days
期刊介绍:
Computational Statistics and Data Analysis (CSDA), an Official Publication of the network Computational and Methodological Statistics (CMStatistics) and of the International Association for Statistical Computing (IASC), is an international journal dedicated to the dissemination of methodological research and applications in the areas of computational statistics and data analysis. The journal consists of four refereed sections which are divided into the following subject areas:
I) Computational Statistics - Manuscripts dealing with: 1) the explicit impact of computers on statistical methodology (e.g., Bayesian computing, bioinformatics,computer graphics, computer intensive inferential methods, data exploration, data mining, expert systems, heuristics, knowledge based systems, machine learning, neural networks, numerical and optimization methods, parallel computing, statistical databases, statistical systems), and 2) the development, evaluation and validation of statistical software and algorithms. Software and algorithms can be submitted with manuscripts and will be stored together with the online article.
II) Statistical Methodology for Data Analysis - Manuscripts dealing with novel and original data analytical strategies and methodologies applied in biostatistics (design and analytic methods for clinical trials, epidemiological studies, statistical genetics, or genetic/environmental interactions), chemometrics, classification, data exploration, density estimation, design of experiments, environmetrics, education, image analysis, marketing, model free data exploration, pattern recognition, psychometrics, statistical physics, image processing, robust procedures.
[...]
III) Special Applications - [...]
IV) Annals of Statistical Data Science [...]
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