Asymptotic Attainability [electronic resource] /
In this monograph, questions of extensions and relaxations are consid ered. These questions arise in many applied problems in connection with the operation of perturbations. In some cases, the operation of "small" per turbations generates "small" deviations of basis indexes; a corresponding stability takes place. In other cases, small perturbations generate spas modic change of a result and of solutions defining this result. These cases correspond to unstable problems. The effect of an unstability can arise in extremal problems or in other related problems. In this connection, we note the known problem of constructing the attainability domain in con trol theory. Of course, extremal problems and those of attainability (in abstract control theory) are connected. We exploit this connection here (see Chapter 5). However, basic attention is paid to the problem of the attainability of elements of a topological space under vanishing perturba tions of restrictions. The stability property is frequently missing; the world of unstable problems is of interest for us. We construct regularizing proce dures. However, in many cases, it is possible to establish a certain property similar to partial stability. We call this property asymptotic nonsensitivity or roughness under the perturbation of some restrictions. The given prop erty means the following: in the corresponding problem, it is the same if constraints are weakened in some "directions" or not. On this basis, it is possible to construct a certain classification of constraints, selecting "di rections of roughness" and "precision directions".
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Format: | Texto biblioteca |
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Dordrecht : Springer Netherlands : Imprint: Springer,
1997
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Subjects: | Mathematics., Functional analysis., Measure theory., Mathematical logic., Calculus of variations., Topology., Functional Analysis., Measure and Integration., Calculus of Variations and Optimal Control; Optimization., Mathematical Logic and Foundations., |
Online Access: | http://dx.doi.org/10.1007/978-94-017-0805-0 |
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Mathematics. Functional analysis. Measure theory. Mathematical logic. Calculus of variations. Topology. Mathematics. Functional Analysis. Measure and Integration. Calculus of Variations and Optimal Control; Optimization. Mathematical Logic and Foundations. Topology. Mathematics. Functional analysis. Measure theory. Mathematical logic. Calculus of variations. Topology. Mathematics. Functional Analysis. Measure and Integration. Calculus of Variations and Optimal Control; Optimization. Mathematical Logic and Foundations. Topology. |
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Mathematics. Functional analysis. Measure theory. Mathematical logic. Calculus of variations. Topology. Mathematics. Functional Analysis. Measure and Integration. Calculus of Variations and Optimal Control; Optimization. Mathematical Logic and Foundations. Topology. Mathematics. Functional analysis. Measure theory. Mathematical logic. Calculus of variations. Topology. Mathematics. Functional Analysis. Measure and Integration. Calculus of Variations and Optimal Control; Optimization. Mathematical Logic and Foundations. Topology. Chentsov, A. G. author. SpringerLink (Online service) Asymptotic Attainability [electronic resource] / |
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In this monograph, questions of extensions and relaxations are consid ered. These questions arise in many applied problems in connection with the operation of perturbations. In some cases, the operation of "small" per turbations generates "small" deviations of basis indexes; a corresponding stability takes place. In other cases, small perturbations generate spas modic change of a result and of solutions defining this result. These cases correspond to unstable problems. The effect of an unstability can arise in extremal problems or in other related problems. In this connection, we note the known problem of constructing the attainability domain in con trol theory. Of course, extremal problems and those of attainability (in abstract control theory) are connected. We exploit this connection here (see Chapter 5). However, basic attention is paid to the problem of the attainability of elements of a topological space under vanishing perturba tions of restrictions. The stability property is frequently missing; the world of unstable problems is of interest for us. We construct regularizing proce dures. However, in many cases, it is possible to establish a certain property similar to partial stability. We call this property asymptotic nonsensitivity or roughness under the perturbation of some restrictions. The given prop erty means the following: in the corresponding problem, it is the same if constraints are weakened in some "directions" or not. On this basis, it is possible to construct a certain classification of constraints, selecting "di rections of roughness" and "precision directions". |
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Mathematics. Functional analysis. Measure theory. Mathematical logic. Calculus of variations. Topology. Mathematics. Functional Analysis. Measure and Integration. Calculus of Variations and Optimal Control; Optimization. Mathematical Logic and Foundations. Topology. |
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Chentsov, A. G. author. SpringerLink (Online service) |
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Chentsov, A. G. author. SpringerLink (Online service) |
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Chentsov, A. G. author. |
title |
Asymptotic Attainability [electronic resource] / |
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Asymptotic Attainability [electronic resource] / |
title_full |
Asymptotic Attainability [electronic resource] / |
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Asymptotic Attainability [electronic resource] / |
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Asymptotic Attainability [electronic resource] / |
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asymptotic attainability [electronic resource] / |
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Dordrecht : Springer Netherlands : Imprint: Springer, |
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1997 |
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http://dx.doi.org/10.1007/978-94-017-0805-0 |
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AT chentsovagauthor asymptoticattainabilityelectronicresource AT springerlinkonlineservice asymptoticattainabilityelectronicresource |
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KOHA-OAI-TEST:2217082018-07-30T23:59:33ZAsymptotic Attainability [electronic resource] / Chentsov, A. G. author. SpringerLink (Online service) textDordrecht : Springer Netherlands : Imprint: Springer,1997.engIn this monograph, questions of extensions and relaxations are consid ered. These questions arise in many applied problems in connection with the operation of perturbations. In some cases, the operation of "small" per turbations generates "small" deviations of basis indexes; a corresponding stability takes place. In other cases, small perturbations generate spas modic change of a result and of solutions defining this result. These cases correspond to unstable problems. The effect of an unstability can arise in extremal problems or in other related problems. In this connection, we note the known problem of constructing the attainability domain in con trol theory. Of course, extremal problems and those of attainability (in abstract control theory) are connected. We exploit this connection here (see Chapter 5). However, basic attention is paid to the problem of the attainability of elements of a topological space under vanishing perturba tions of restrictions. The stability property is frequently missing; the world of unstable problems is of interest for us. We construct regularizing proce dures. However, in many cases, it is possible to establish a certain property similar to partial stability. We call this property asymptotic nonsensitivity or roughness under the perturbation of some restrictions. The given prop erty means the following: in the corresponding problem, it is the same if constraints are weakened in some "directions" or not. On this basis, it is possible to construct a certain classification of constraints, selecting "di rections of roughness" and "precision directions".1 Asymptotically Attainable Elements: Model Examples -- 2 Asymptotic Effects in Linear Control Problems with Integral Constraints -- 3 Asymptotic Attainability: General Questions -- 4 Asymptotic Attainability under Perturbation of Integral Constraints -- 5 Relaxations of Extremal Problems -- 6 Some Generalizations -- 7 Other Extension Constructions in the Space of Solutions -- Conclusion -- List of notations.In this monograph, questions of extensions and relaxations are consid ered. These questions arise in many applied problems in connection with the operation of perturbations. In some cases, the operation of "small" per turbations generates "small" deviations of basis indexes; a corresponding stability takes place. In other cases, small perturbations generate spas modic change of a result and of solutions defining this result. These cases correspond to unstable problems. The effect of an unstability can arise in extremal problems or in other related problems. In this connection, we note the known problem of constructing the attainability domain in con trol theory. Of course, extremal problems and those of attainability (in abstract control theory) are connected. We exploit this connection here (see Chapter 5). However, basic attention is paid to the problem of the attainability of elements of a topological space under vanishing perturba tions of restrictions. The stability property is frequently missing; the world of unstable problems is of interest for us. We construct regularizing proce dures. However, in many cases, it is possible to establish a certain property similar to partial stability. We call this property asymptotic nonsensitivity or roughness under the perturbation of some restrictions. The given prop erty means the following: in the corresponding problem, it is the same if constraints are weakened in some "directions" or not. On this basis, it is possible to construct a certain classification of constraints, selecting "di rections of roughness" and "precision directions".Mathematics.Functional analysis.Measure theory.Mathematical logic.Calculus of variations.Topology.Mathematics.Functional Analysis.Measure and Integration.Calculus of Variations and Optimal Control; Optimization.Mathematical Logic and Foundations.Topology.Springer eBookshttp://dx.doi.org/10.1007/978-94-017-0805-0URN:ISBN:9789401708050 |