Giulio Ortali scite author profile

Giulio Ortali

4Publications

24Citation Statements Received

51Citation Statements Given

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Affiliations

Scuola Internazionale Superiore di Studi Avanzati, Polytechnic University of Turin, Eindhoven University of Technology

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An efficient computational framework for naval shape design and optimization problems by means of data-driven reduced order modeling techniques

Demo

Ortali

Gustin

et al. 2020

Boll Unione Mat Ital

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This contribution describes the implementation of a data-driven shape optimization pipeline in a naval architecture application. We adopt reduced order models in order to improve the efficiency of the overall optimization, keeping a modular and equation-free nature to target the industrial demand. We applied the above mentioned pipeline to a realistic cruise ship in order to reduce the total drag. We begin by defining the design space, generated by deforming an initial shape in a parametric way using free form deformation. The evaluation of the performance of each new hull is determined by simulating the flux via finite volume discretization of a two-phase (water and air) fluid. Since the fluid dynamics model can result very expensive—especially dealing with complex industrial geometries—we propose also a dynamic mode decomposition enhancement to reduce the computational cost of a single numerical simulation. The real-time computation is finally achieved by means of proper orthogonal decomposition with Gaussian process regression technique. Thanks to the quick approximation, a genetic optimization algorithm becomes feasible to converge towards the optimal shape.

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

Ortali¹,

Demo

Rozza

2021

MINE

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<abstract><p>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.</p></abstract>

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Gaussian process approach within a data-driven POD framework for fluid dynamics engineering problems

Ortali¹,

Demo²,

Rozza³

2020

Preprint

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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 problems, and in the following to a real-world industrial problem, inside a shape optimization pipeline for a naval engineering problem.

show abstract

An efficient computational framework for naval shape design and optimization problems by means of data-driven reduced order modeling techniques

Demo¹,

Ortali²,

Gustin³

et al. 2020

Preprint

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Giulio Ortali

An efficient computational framework for naval shape design and optimization problems by means of data-driven reduced order modeling techniques

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

Gaussian process approach within a data-driven POD framework for fluid dynamics engineering problems

An efficient computational framework for naval shape design and optimization problems by means of data-driven reduced order modeling techniques

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