A Gaussian Process Regression approach within a data-driven POD framework for engineering problems in fluid dynamics

Giulio Ortali; Nicola Demo; Gianluigi Rozza

Journal ArticleOPEN ACCESS

A Gaussian Process Regression approach within a data-driven POD framework for engineering problems in fluid dynamics

Ortali G
Demo N
Rozza G

Mathematics In Engineering (2022) 4(3) 1-16

DOI: 10.3934/mine.2022021

18Citations

10Readers

Get full text

Abstract

This work describes the implementation of a data-driven approach for the reduction of the complexity of parametrical partial differential equations (PDEs) employing Proper Orthogonal Decomposition (POD) and Gaussian Process Regression (GPR). This approach is applied initially to a literature case, the simulation of the Stokes problem, and in the following to a real-world industrial problem, within a shape optimization pipeline for a naval engineering problem.

Author supplied keywords

Data-driven method
Gaussian Process Regression
Parametric design problem
Reduced order modeling

Cite

CITATION STYLE

APA

Ortali, G., Demo, N., & Rozza, G. (2022). A Gaussian Process Regression approach within a data-driven POD framework for engineering problems in fluid dynamics. Mathematics In Engineering, 4(3), 1–16. https://doi.org/10.3934/mine.2022021

A Gaussian Process Regression approach within a data-driven POD framework for engineering problems in fluid dynamics

Abstract

Author supplied keywords

Cite

Register to see more suggestions