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5. Solutions

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2018
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6. Answers

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2018
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11. Sturm’s Method

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series Editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2018
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16. Using Functions

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series Editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2018
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17. Combinatorics

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2018
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18. Hints

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2018
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19. Number Theory

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2018
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21. Gauss’s Area Formula for Irregular Shapes.

Author

Gechlik, Jacob and Sedrakyan, Hayk

Subjects
SHOELACES, POLYGONS, ALGORITHMS
Abstract

To find the area of an irregular shape, we break the shape into common shapes. Then we find the area of each shape and add them, but this approach does not always work. In this paper we investigate Gauss’s area formula (for irregular shapes), also known as the shoelace formula or the shoelace algorithm. This theorem is outside the scope of school program. Nevertheless, we provide several applications that emphasize the importance and usefulness of this theorem. Most of the applications provided in this paper are created by the authors. [ABSTRACT FROM AUTHOR]

Published
2024

24. Areas

Author

Sedrakyan, Hayk, Sedrakyan, Nairi, Winkler, Peter, Series editor, Sedrakyan, Hayk, and Sedrakyan, Nairi

Published
2017
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31. Hints

Author

Sedrakyan, Hayk, primary and Sedrakyan, Nairi, additional

Published
2018
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34. Answers

Author

Sedrakyan, Hayk, primary and Sedrakyan, Nairi, additional

Published
2018
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43. Comportement limite des systèmes singuliers et les limites de fonctions valeur en contrôle optimal

Author

Sedrakyan, Hayk, Equipe combinatoire et optimisation (C&O), Institut de Mathématiques de Jussieu - Paris Rive Gauche (IMJ-PRG), Université Pierre et Marie Curie - Paris 6 (UPMC)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Université Pierre et Marie Curie - Paris VI, Hélène Frankowska, Marc Quincampoix, and STAR, ABES

Subjects
Solution de viscosité, [MATH.MATH-GM]Mathematics [math]/General Mathematics [math.GM], Equations d'Hamilton-Jacobi, Bolza problem, Condition de nonexpansivité, [MATH.MATH-GM] Mathematics [math]/General Mathematics [math.GM], Problème de Bolza, Hamilton-Jacobi equations, Perturbations singulières, Contraintes d'état
Abstract

This thesis consists of two main parts. In the first part, Chapter 3 is devoted to the investigation of the limit behavior of a singularly perturbed control system with two state variables which are weakly coupled. In order to prove our approximation result we use the so called averaging method and a recent result on nonexpansive control. The main novelty of our averaging approach lies in the fact that the limit dynamic may depend on the initial condition of the fast system. In the literature, the investigation of the limit behavior of such systems has been usually addressed under conditions that ensure that the limit dynamic is independent from the initial condition of the fast system. In Chapter 4, we generalise the results of Chapter 3 by considering a more general nonexpansivity condition. Moreover, we consider an example where the new nonexpansity condition is satisfied but the nonexpansivity condition of Chapter 3 does not hold true. The second part deals with Hamilton-Jacobi equations under state constraints. Chapter 5 focuses on the stable representation of convex Hamiltonians by functions describing a Bolza optimal control problem. In Chapter 6 we investigate stability of solutions of Hamilton-Jacobi-Bellman equations under state constraints by studying stability of value functions of a suitable family of Bolza optimal control problems under state constraints. We show that under suitable assumptions, the value function is a unique viscosity solution to Hamilton-Jacobi-Bellman equation and that solutions are stable with respect to Hamiltonians and state constraints., Cette thèse se compose de deux parties principales. Dans la première partie, le Chapitre 3 est consacré à l'étude du comportement limite d'un système contrôlé singulièrement perturbé avec deux variables d'état qui sont faiblement couplées. Afin de prouver notre résultat d'approximation, nous utilisons la méthode de moyennisation et un résultat récent sur le contrôle nonexpansif. La principale nouveauté de notre approche est de permettre la dynamique limite de dépendre de l'état initial du système rapide. Notons que dans la littérature, le comportement limite d'un tel système a été généralement traité dans des conditions qui garantissent que la limite est indépendante de l'état initial du système rapide. Dans le Chapitre 4, nous généralisons les résultats du Chapitre 3 supposant une condition de nonexpansivité plus générale. De plus, nous considérons un exemple ou la nouvelle condition de nonexpansivité est satisfaite, mais pas la condition de nonexpansivité du Chapitre 3. Dans la deuxième partie de la thèse, le Chapitre 5 porte sur les représentations stables des Hamiltoniens convexes associant à un Hamiltonien donné des fonctions correspondant au problème de Bolza en controle optimal. Dans le Chapitre 6 nous étudions également la stabilité des solutions des équations d'Hamilton-Jacobi-Bellman sous contraintes d'état en exploitant la stabilité des fonctions valeur d'une famille de problèmes de contrôle optimal de Bolza sous contraintes d'état. Nous montrons que sous des hypothèses appropriées, la fonction valeur est la solution unique d'équation d'Hamilton-Jacobi-Bellman et que les solutions sont stables par rapport à l'Hamiltonien et les contraintes d'état.

Published
2014

44. Stability of solutions to Hamilton-Jacobi equations on closed domains arising in optimal control

Author

Sedrakyan, Hayk, Institut de Mathématiques de Jussieu (IMJ), Université Pierre et Marie Curie - Paris 6 (UPMC)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), and European Project: 264735,EC:FP7:PEOPLE,FP7-PEOPLE-2010-ITN,SADCO(2011)

Subjects
ComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION, MathematicsofComputing_NUMERICALANALYSIS, [MATH.MATH-OC]Mathematics [math]/Optimization and Control [math.OC], MathematicsofComputing_DISCRETEMATHEMATICS
Abstract

Parallel session; International audience; Stability of solutions to Hamilton-Jacobi equations on closed domains arising in optimal control

Published
2014

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