LAPSE:2024.1548
Published Article
LAPSE:2024.1548
Integrating Hybrid Modeling and Multifidelity Approaches for Data-Driven Process Model Discovery
August 16, 2024. Originally submitted on July 9, 2024
Modeling the non-linear dynamics of a system from measurement data accurately is an open challenge. Over the past few years, various tools such as SINDy and DySMHO have emerged as approaches to distill dynamics from data. However, challenges persist in accurately capturing dynamics of a system especially when the physical knowledge about the system is unknown. A promising solution is to use a hybrid paradigm, that combines mechanistic and black-box models to leverage their respective strengths. In this study, we combine a hybrid modeling paradigm with sparse regression, to develop and identify models simultaneously. Two methods are explored, considering varying complexities, data quality, and availability and by comparing different case studies. In the first approach, we integrate SINDy-discovered models with neural ODE structures, to model unknown physics. In the second approach, we employ Multifidelity Surrogate Models (MFSMs) to construct composite models comprised of SINDy-discovered models and error-correction models.
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Keywords
Data-driven modeling, Hybrid modeling, Model identification, Multifidelity, Sparse regression
Subject
Suggested Citation
Ravutla S, Boukouvala F. Integrating Hybrid Modeling and Multifidelity Approaches for Data-Driven Process Model Discovery. (2024). LAPSE:2024.1548
Author Affiliations
Ravutla S: Department of Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA 30332 USA
Boukouvala F: Department of Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA 30332 USA
Boukouvala F: Department of Chemical and Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA 30332 USA
Journal Name
Systems and Control Transactions
Volume
3
First Page
351
Last Page
358
Year
2024
Publication Date
2024-07-10
Version Comments
DOI Assigned
Other Meta
PII: 0351-0358-676306-SCT-3-2024, Publication Type: Journal Article
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Published Article
LAPSE:2024.1548
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External Link
https://doi.org/10.69997/sct.151585
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