Your search keyword '"Rukhaia, Giorgi"' showing total 13 results

1. Point source regularization of the finite source reflector problem

Author

Benamou, Jean-David, Chazareix, Guillaume, IJzerman, Wilbert, and Rukhaia, Giorgi

Published

2022

2. Reports, data and web presentation of model hierarchies for the use in training courses

Author

Bannenberg, Marcus, Bärmann, Andreas, Barral, Patricia, Jean-David Benamou, Bianco, Federico, Binder, Andreas, Chazareix, Guillaume, Ciccazzo, Angelo, Conte, Ricardo, Comesaña, Daniel Fernandez, Girfoglio, Michele, Günther, Michael, Ijzerman, Wilbert, Jadhav, Onkar, Lengomin, Alejandro, Martin, Alexander, Martinolli, Marco, Mehrmann, Volker, Morelli, Umberto, Ashwin Nayak, Polverelli, Luc, Prieto, Andrés, Peregrina Quintela, Ramlau, Ronny, Rozza, Gianluigi, Rukhaia, Giorgi, Shah, Nirav, Stabile, Giovanni, Stadler, Bernadett, Jonasz Staszek, and Vergara, Christian

Subjects

Benchmarks, Model hierarchies

Abstract

Deliverable D5.4 in the ROMSOC project

Published

2022

3. Point source regularization of the finite source reflector problem

Author

Benamou, Jean David, Chazareix, Guillaume, IJzerman, Wilbert, Rukhaia, Giorgi, Benamou, Jean David, Chazareix, Guillaume, IJzerman, Wilbert, and Rukhaia, Giorgi

Abstract

We address the “freeform optics” inverse problem of designing a reflector surface mapping a prescribed source distribution of light to a prescribed far-field distribution, for a finite light source. When the finite source reduces to a point source, the light source distribution has support only on the optics ray directions. In this setting, the inverse problem is well-posed for arbitrary source and target probability distributions. It can be recast as an Optimal Transportation problem and has been studied both mathematically and numerically. We are not aware of any similar mathematical formulation in the finite source case: i.e. the source has an “étendue” with support both in space and directions. We propose to leverage the well-posed variational formulation of the point source problem to build a smooth parameterization of the reflector and the reflection map. Under this parameterization, we can construct a smooth loss/misfit function to optimize for the best solution in this class of reflectors. Both steps, the parameterization and the loss, are related to Optimal Transportation distances. We also take advantage of recent progress in the numerical approximation and resolution of these mathematical objects to perform a numerical study.

Published

2022

4. A FreeForm Optics Application of Entropic Optimal Transport

Author

Rukhaia, Giorgi, Benamou, Jean-David, Ijzerman, Wilbert, Méthodes numériques pour le problème de Monge-Kantorovich et Applications en sciences sociales (MOKAPLAN), CEntre de REcherches en MAthématiques de la DEcision (CEREMADE), Université Paris Dauphine-PSL, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Dauphine-PSL, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Inria de Paris, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria), Université Paris sciences et lettres, Jean-David Benamou, Wilbert IJzerman, European Project: 765374,H2020-EU.1.3. - EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions / H2020-EU.1.3.1. - Fostering new skills by means of excellent initial training of researchers ,ROMSOC(2017), Centre National de la Recherche Scientifique (CNRS)-Université Paris Dauphine-PSL, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Inria de Paris, PSL Université Paris Dauphine, INRIA Paris, Inria de Paris, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-CEntre de REcherches en MAthématiques de la DEcision (CEREMADE), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)

Subjects

Non-Linear optimization, Problème inverse du reflecteur, Optimisation non linéaire, Optimisation non linèaire, Non-linear opti- mization, Transport Optimal entropique, Inverse Reflector Problem, Algorithme de Sinkhorn, Sinkhorn algorithm, [MATH.MATH-MP]Mathematics [math]/Mathematical Physics [math-ph], Entropic Optimal Transport, Extended source, Problème inverse du réflecteur, [MATH]Mathematics [math], Source lumineuse étendue

Abstract

In this work, we address the “freeform optics” inverse problem of designing a reflector surface mapping a prescribed source distribution of light to a prescribed target far-field distribution, for the point light source and the extended light source. When the source is a point source, the light distribution has support only on the optics ray directions. In this setting, the inverse problem is well-posed for arbitrary source and target probability distributions. It can be recast as an optimal transport problem and is a classic example of an optimal transport problem with a non-euclidean displacement cost. We explore the use of entropic Optimal Transport and the associated Sinkhorn algorithm to solve it numerically. As the reflector modeling is based on the Kantorovich potentials, several questions arise. First, on the convergence of the discrete entropic approximation and here we follow the recent work of Berman and in particular the imposed discretization requirements therein. Secondly, the correction of the bias induced by the entropic Optimal Transport using the recent notion of Sinkhorn divergences is shown to be necessary to achieve satisfactory results. For the point source problem, we discuss the necessary mathematical and numerical tools needed to produce and analyze the obtained numerical results. We find that Sinkhorn algorithm may be adapted to the resolution of the point source to far-field reflector problem.We are not aware of any similar mathematical formulation in the extended source case: i.e. the source has an “étendue” with support in the product space: physical domain-ray directions. We propose to leverage the well-posed variational formulation of the point source problem to build a smooth parameterization of the reflector and the map modeling the reflection. Under this parametrization, we can construct a smooth cost function to optimize for the best solution in this class of reflectors. Both steps, the parameterization and the cost function, are related to entropic optimal transport distances. We also take advantage of recent progress in the optimization techniques and the efficient implementations of Sinkhorn algorithm to perform a numerical study.; Dans ce travail, nous abordons un problème inverse en optique anidolique consistant à déterminer une surface capable de réflechir une distribution de lumière source à une distribution cible en champ lointain, toutes deux prescrites. La source lumineuse peut être ponctuelle ou étendue. Lorsque la source est une source ponctuelle , la distribution est supportée uniquement sur les directions des rayons optiques. Dans ce contexte, le problème inverse est bien posé pour des distributions de probabilité source et cible arbitraires. Il peut être reformulé comme un problème de transport optimal et constitue un exemple célébre de transport optimal sous un coût de déplacement non euclidien. Nous explorons l’utilisation du transport optimal entropique et de l’algorithme Sinkhorn associé pour le résoudre numériquement. La modélisation du réflecteur étant basée sur les potentiels de Kantorovich, plusieurs questions se posent. Premièrement, sur la convergence de l’approximation entropique discrète et nous suivons ici les travaux récents de Berman et en particulier les exigences de discrétisation qui y sont imposées. Deuxièmement, nous montrons que la correction du biais induit par le transport entropique Optimal peut être atteinte en utilisant la notion récente de divergences Sinkhorn. Pour le problème de source ponctuelle, nous discutons des outils mathématiques et numériques nécessaires pour produire et analyser les résultats numériques obtenus. Nous trouvons que l’algorithme Sinkhorn peut être adapté à la résolution du problème de la source ponctuelle au réflecteur en champ lointain.Nous ne connaissons pas de formulation mathématique similaire dans le cas de la source étendue : la distribution de lumière source a support sur l’espace produit: domaine physique-directions des rayons. Nous proposons de tirer parti de la formulation variationnelle bien posée du problème de source ponctuelle pour construire une paramétrisation lisse du réflecteur et de l’application modélisant la réflexion. Sous cette paramétrisation, nous pouvons construire une fonction de coût lisse à optimiser pour trouver la meilleure solution dans cette classe de réflecteurs. Les deux étapes, la paramétrisation et la fonction de coût, sont liées à des distances de transport entropiques optimales. Nous profitons également des progrès récents des techniques d’optimisation et des implémentations efficaces de l’algorithme Sinkhorn pour réaliser une étude numérique.

Published

2021

5. Point Source Regularization of the Finite Source Reflector Problem

Author

Benamou, Jean-David, Chazareix, Guillaume, Rukhaia, Giorgi, Ijzerman, Wilbert, Méthodes numériques pour le problème de Monge-Kantorovich et Applications en sciences sociales (MOKAPLAN), Inria de Paris, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-CEntre de REcherches en MAthématiques de la DEcision (CEREMADE), Centre National de la Recherche Scientifique (CNRS)-Université Paris Dauphine-PSL, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Dauphine-PSL, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL), Signify Research, Scientific Computing, Computational Illumination Optics, CEntre de REcherches en MAthématiques de la DEcision (CEREMADE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Inria de Paris, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria), Université Paris Dauphine-PSL, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Inria de Paris

Subjects

Computational Mathematics, Numerical Analysis, Optimal transportation, Physics and Astronomy (miscellaneous), Inverse reflector problem, Non-linear optimization, Applied Mathematics, Modeling and Simulation, Inverse reflector problem, 2000 MSC: 78A46, 49Q22, 65K10, [MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP], [MATH.MATH-OC]Mathematics [math]/Optimization and Control [math.OC], Computer Science Applications

Abstract

International audience; We address the “freeform optics” inverse problem of designing a reflector surface mapping a prescribed source distribution of light to a prescribed far field distribution, for a finite light source. When the finite source reduces to a point source, the light source distribution has support only on the optics ray directions. In this setting the inverse problem is well posed for arbitrary source and target probability distributions. It can be recast as an Optimal Transportation problem and has been studied both mathematically and nu-merically. We are not aware of any similar mathematical formulation in the finite source case: i.e. the source has an “´etendue” with support both in space and directions. We propose to leverage the well-posed variational formulation of the point source problem to build a smooth parameterization of the reflec-tor and the reflection map. Under this parameterization we can construct a smooth loss/misfit function to optimize for the best solution in this class of reflectors. Both steps, the parameterization and the loss, are related to Optimal Transportation distances. We also take advantage of recent progress in the numerical approximation and resolution of these mathematical objects to perform a numerical study.

Published

2021

6. Reports about new techniques for the integration of model hierarchies into optimization techniques

Author

Bärmann, Andreas, Martin, Alexander, Staszek, Jonasz, Benamou, Jean-David, Rukhaia, Giorgi, Ramlau, Ronny, Stadler, Bernadett, Ijzerman, Wilbert, Hintermüller, Michael, Knall, Karl, and Nguyen, Hong

Abstract

Project Deliverable D4.2

Published

2021

7. Reports about 8 selected benchmark cases of model hierarchies

Author

Auer, Naomi, Barral, PatriciaI, Benamou, Jean-David, Baermann, Andreas, Binder, Andreas, Comesaña, Daniel Fernández, Girfoglio, Michele, Hauberg-Lotte, Lena, Hintermüller, Michael, Ijzerman, Wilbert, Jadhav, Onkar, Knall, Karl, Maass, Peter, Marconi, Gianfranco, Martinolli, Marco, Mehrmann, Volker, Monticone, Pier Paolo, Morelli, Umberto, Nayak, Ashwin, Polverelli, Luc, Prieto, Andrés, Quintela, Peregrina, Ramlau, Ronny, Riccardo, Conte, Rozza, Gianluigi, Rukhaia, Giorgi, Shah, Nirav, Stadler, Bernadett, Staszek, Jonasz, and Vergara, Christian

Abstract

Based on the multitude of industrial applications, benchmarks for model hierarchies will be created that will form a basis for the interdisciplinary research and for the training programme. These will be equipped with publically available data and will be used for training in modelling, model testing, reduced order modelling, error estimation, efficiency optimization in algorithmic approaches, and testing of the generated MSO/MOR software. The present document includes the description about the selection of (at least) eight benchmark cases of model hierarchies. The present document has been structured in three main parts to distinguish those contributions which are focused on coupling methods, model order reduction methods, and optimization methods., Project Deliverable (D5.1), Version 3.0

Published

2020

8. Software-based representation of selected benchmark hierarchies equipped with publically available data

Author

Bannenberg, Marcus, Barral, Patricia, Bärmann, Andreas, Benamou, Jean-David, Bianco, Federico, Binder, Andreas, Chazareix, Guillaume, Dittmer, Sören, Comesaña, Daniel Fernández, Girfoglio, Michele, Günther, Michael, Gutiérrez Pérez, José Carlos, Hauberg-Lotte, Lena, Ijzerman, Wilbert, Jadhav, Onkar, Kluth, Tobias, Lengomin, Alejandro, Maass, Peter, Marconi, Gianfranco, Martin, Alexander, Martinolli, Marco, Mehrmann, Volker, Monticone, Pier Paolo, Morelli, Umberto, Nayak, Ashwin, Obereder, Andreas, Otero Baguer, Daniel, Polverelli, Luc, Prieto, Andrés, Quintela, Peregrina, Ramlau, Ronny, Riccardo, Conte, Rozza, Gianluigi, Rukhaia, Giorgi, Shah, Nirav, Stabile, Giovanni, Stadler, Bernadett, Staszek, Jonasz, and Vergara, Christian

Subjects

Benchmarks, Model hierarchies

Abstract

Based on the multitude of industrial applications, benchmarks for model hierarchies will be created that will form a basis for the interdisciplinary research and for the training programme. These will be equipped with publically available data and will be used for training in modelling, model testing, reduced order modelling, error estimation, efficiency optimization in algorithmic approaches, and testing of the generated MSO/MOR software. The present document includes a detailed description of the computer implementation of these benchmarks involving not only the required publically available data but also the used software packages, libraries and any other relevant information, which guarantee a fully reproducibility of the reported numerical results. The present document has been structured in three main parts to distinguish those contributions which are focused on coupling methods, model order reduction methods, and optimization methods., Project Deliverable (D5.2), Version 2.0

Published

2020

9. Reports about error estimators and data-driven adaptations for modelling and optimization errors

Author

Bärmann, Andreas, Martin, Alexander, Staszek, Jonasz, Ramlau, Ronny, Stadler, Bernadett, Gutiérrez Pérez, José Carlos, Dittmer, Sören, Kluth, Tobias, Maaß, Peter, Otero Baguer, Daniel, Kroener, Axel, Hintermüller, Michael, Benamou, Jean-David, Rukhaia, Giorgi, and IJzerman, Wilbert

Subjects

Optimization, Error estimators, Algorithms

Abstract

In the ROMSOC project, we develop specially-tailored algorithmic approaches to solve the practical problems of our industry partners. The mathematical fields involved in solving these problems are as diverse as the problems themselves. Thus, our project covers a very broad range within applied mathematics: from discrete optimization to inverse problems, from deep learning to optimal control. What all these fields have in common is that error estimation is an important topic in order to quantify the quality of a computed solution. Naturally, all of them their own error measures and different ways of computing and using them. This report summarizes the state of the art methods in the respective fields concerning error measures and their usefulness in solving real-world problems.

Published

2020

10. An entropic optimal transport numerical approach to the reflector problem

Author

Benamou, Jean-David, primary, Ijzerman, Wilbert L., additional, and Rukhaia, Giorgi, additional

Published

2020

11. Software-based representation of selected benchmark hierarchies equipped with publically available data

Author

Bannenberg, Marcus, Barral, Patricia, Benamou, Jean-David, Bianco, Federico, Binder, Andreas, Dittmer, Sören, Comesaña, Daniel Fernández, Girfoglio, Michele, Günther, Michael, Gutiérrez Pérez, José Carlos, Hauberg-Lotte, Lena, Ijzerman, Wilbert, Jadhav, Onkar, Kluth, Tobias, Lengomin, Alejandro, Maass, Peter, Marconi, Gianfranco, Martinolli, Marco, Mehrmann, Volker, Monticone, Pier Paolo, Morelli, Umberto, Nayak, Ashwin, Obereder, Andreas, Otero Baguer, Daniel, Polverelli, Luc, Prieto, Andrés, Quintela, Peregrina, Ramlau, Ronny, Riccardo, Conte, Rozza, Gianluigi, Rukhaia, Giorgi, Shah, Nirav, Stabile, Giovanni, Stadler, Bernadett, and Vergara, Christian

Subjects

Benchmarks, Model hierarchies

Abstract

Based on the multitude of industrial applications, benchmarks for model hierarchies will be created that will form a basis for the interdisciplinary research and for the training programme. These will be equipped with publically available data and will be used for training in modelling, model testing, reduced order modelling, error estimation, efficiency optimization in algorithmic approaches, and testing of the generated MSO/MOR software. The present document includes a detailed description of the computer implementation of these benchmarks involving not only the required publically available data but also the used software packages, libraries and any other relevant information, which guarantee a fully reproducibility of the reported numerical results.

Published

2019

12. Reports about 8 selected benchmark cases of model hierarchies

Author

Auer, Naomi, Barral, Patricia, Benamou, Jean-David, Comesaña, Daniel Fernández, Girfoglio, Michele, Hauberg-Lotte, Lena, Hintermüller, Michael, Ijzerman, Wilbert, Knall, Karl, Maass, Peter, Marconi, Gianfranco, Martinolli, Marco, Monticone, Pier Paolo, Morelli, Umberto, Nayak, Ashwin, Polverelli, Luc, Prieto, Andrés, Quintela, Peregrina, Ramlau, Ronny, Riccardo, Conte, Rozza, Gianluigi, Rukhaia, Giorgi, Shah, Nirav, Stadler, Bernadett, Vergara, Christian, Prieto, Andrés, and Quintela, Peregrina

Subjects

ddc:518, interdisciplinary research, benchmarks, model hierarchies, 518 Numerische Analysis, training programme, adaptive optics

Abstract

Based on the multitude of industrial applications, benchmarks for model hierarchies will be created that will form a basis for the interdisciplinary research and for the training programme. These will be equipped with publically available data and will be used for training in modelling, model testing, reduced order modelling, error estimation, efficiency optimization in algorithmic approaches, and testing of the generated MSO/MOR software. The present document includes the description about the selection of (at least) eight benchmark cases of model hierarchies.

Published

2018

13. MODELING THE DYNAMICS OF A MIXTURE OF NATURAL GAS AND HYDROGEN IN PIPELINE.

Author

Davitashvili, Teimuraz and Rukhaia, Giorgi

Subjects

NATURAL gas, HYDROGEN, PIPELINES

Published

2023