Al-DeMat

A web-based expert system platform for computationally expensive models in materials design

authored by: Bokai Liu, Nam Vu-Bac, Xiaoying Zhuang, Weizhuo Lu, Xiaolong Fu, Timon Rabczuk
Abstract: We present a web-based framework based on the R shiny package with functional back-end server in machine learning methods. A 4-tiers architecture is programmed to achieve users’ interactive design and visualization via a web browser. Many data-driven methods are integrated into this framework, namely Random Forest, Gradient Boosting Machine, Artificial and Deep neural networks. Moreover, a robust gradient-free optimization technique, the Particle Swarm Optimization, is used to search optimal values in hyper-parameters tuning. K-fold Cross Validation is applied to avoid over-fitting. R² and RMSE are considered as two key factors to evaluate the trained models. The contributions to the expert system in materials design are: (1) A systematic framework that can be applied in materials prediction with machine learning approaches, (2) A user-friendly web-based platform that is easy and flexible to use and (3) integrated optimization and visualization into the framework with pre set algorithms. This computational framework is designed for researchers and materials engineers who would like to do the preliminary designs before experimental studies. Finally, we demonstrate the performance of the web-based framework through 2 case studies.
Organisation(s): Institute of Photonics
External Organisation(s): Bauhaus-Universität Weimar
Umea University
Xi'an Modern Chemistry Research Institute
Type: Article
Journal: Advances in engineering software
Volume: 176
ISSN: 0965-9978
Publication date: 02.2023
Publication status: Published
Peer reviewed: Yes
ASJC Scopus subject areas: Software, General Engineering
Electronic version(s): https://doi.org/10.1016/j.advengsoft.2022.103398 (Access: Closed)
: Details in the research portal "Research@Leibniz University"

BibTeX

@article{c5ffb1fad48b422a9aa3f229df299106,
title = "Al-DeMat: A web-based expert system platform for computationally expensive models in materials design",
abstract = "We present a web-based framework based on the R shiny package with functional back-end server in machine learning methods. A 4-tiers architecture is programmed to achieve users{\textquoteright} interactive design and visualization via a web browser. Many data-driven methods are integrated into this framework, namely Random Forest, Gradient Boosting Machine, Artificial and Deep neural networks. Moreover, a robust gradient-free optimization technique, the Particle Swarm Optimization, is used to search optimal values in hyper-parameters tuning. K-fold Cross Validation is applied to avoid over-fitting. R2 and RMSE are considered as two key factors to evaluate the trained models. The contributions to the expert system in materials design are: (1) A systematic framework that can be applied in materials prediction with machine learning approaches, (2) A user-friendly web-based platform that is easy and flexible to use and (3) integrated optimization and visualization into the framework with pre set algorithms. This computational framework is designed for researchers and materials engineers who would like to do the preliminary designs before experimental studies. Finally, we demonstrate the performance of the web-based framework through 2 case studies.",
keywords = "Data-driven modeling, Decision support systems (DSS), Machine learning, R shiny, Web-based platform",
author = "Bokai Liu and Nam Vu-Bac and Xiaoying Zhuang and Weizhuo Lu and Xiaolong Fu and Timon Rabczuk",
note = "Funding Information: We gratefully acknowledge the support of the China Scholarship Council (CSC) . ",
year = "2023",
month = feb,
doi = "10.1016/j.advengsoft.2022.103398",
language = "English",
volume = "176",
journal = "Advances in engineering software",
issn = "0965-9978",
publisher = "Pergamon Press Ltd.",
}

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