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Main Authors: Shakeel, Mohamed Bilal, Belhaouari, Samir Brahim, Mellouhi, Fedwa El
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2311.13808
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author Shakeel, Mohamed Bilal
Belhaouari, Samir Brahim
Mellouhi, Fedwa El
author_facet Shakeel, Mohamed Bilal
Belhaouari, Samir Brahim
Mellouhi, Fedwa El
contents In the field of materials science, comprehending material properties is often hindered by the complexity of datasets originating from various sources. This study introduces the Automated Model Training (AMT) Graphical User Interface (GUI), specifically crafted for the use of researchers and scientists without a programming background to design the next set of experiments either in a chemistry lab or on the computer. The GUI integrates diverse machine learning models, such as XG-Boost, Random Forest, Support Vector Regression, Linear Regression, Generalized Additive Model (GAM), and Stack Regressors, offering a robust toolkit for data analysis. It facilitates the exploration of complex relationships, non-linear patterns, and predictive accuracy optimization. To further enhance its utility, the GUI integrates the Particle Swarm Optimization (PSO) technique, allowing researchers to systematically explore vast parameter spaces and identify optimal experimental conditions. This synergy between machine learning and PSO empowers material scientists through a user-friendly platform for data-driven discovery. The AMT GUI bridges the gap between traditional experimentation and machine learning, enabling precise and efficient exploration of the materials research space.
format Preprint
id arxiv_https___arxiv_org_abs_2311_13808
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Automated Model Training (AMT) GUI: An Opportunity for integrating AI in the Laboratory Experiment
Shakeel, Mohamed Bilal
Belhaouari, Samir Brahim
Mellouhi, Fedwa El
Materials Science
In the field of materials science, comprehending material properties is often hindered by the complexity of datasets originating from various sources. This study introduces the Automated Model Training (AMT) Graphical User Interface (GUI), specifically crafted for the use of researchers and scientists without a programming background to design the next set of experiments either in a chemistry lab or on the computer. The GUI integrates diverse machine learning models, such as XG-Boost, Random Forest, Support Vector Regression, Linear Regression, Generalized Additive Model (GAM), and Stack Regressors, offering a robust toolkit for data analysis. It facilitates the exploration of complex relationships, non-linear patterns, and predictive accuracy optimization. To further enhance its utility, the GUI integrates the Particle Swarm Optimization (PSO) technique, allowing researchers to systematically explore vast parameter spaces and identify optimal experimental conditions. This synergy between machine learning and PSO empowers material scientists through a user-friendly platform for data-driven discovery. The AMT GUI bridges the gap between traditional experimentation and machine learning, enabling precise and efficient exploration of the materials research space.
title Automated Model Training (AMT) GUI: An Opportunity for integrating AI in the Laboratory Experiment
topic Materials Science
url https://arxiv.org/abs/2311.13808