385 research outputs found

    Recent Developments in System Dynamics Software

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    This paper is a short review of a conference held in Sevilla, Spain, in October 1987. Organized by the Systems Dynamic Society, it concentrated around concepts in methodology and applications of nonlinear system modelling within the framework introduced by Jay Forrester and his followers. The attitude to this approach is controversial. For example, the respective methodologies do not involve the identification of system parameters and the construction of the models from available data does not involve and may even contradict with the rigorous concepts and techniques of modern system theory. The review given here does not discuss the relevance of "System Dynamics". It merely gives some information on the topics presented at the conference in Sevilla

    Epsilon Solutions and Duality in Vector Optimization

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    This paper is a continuation of the author's previous investigations in the theory of epsilon-solutions in convex vector optimization and serves as a theoretical background for the research of SDS in the field of multicriteria optimization. With the stress laid on duality theory, the results presented here give some insight into the problems arising when exact solutions have to be substituted by approximate ones. Just like in the scalar case, the available computational techniques frequently lead to such a situation in multicriteria optimization

    Ellipsoidal Techniques: Guaranteed State Estimation

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    This paper gives a concise description of effective solutions to the "guaranteed" state estimation problems for dynamic systems with unknown but bounded uncertainty. It indicates a rather unconventional, rigorous theory for these problems based on the notion of evolution equations of the "funnel" type which could be further transformed -- through exact ellipsoidal approximations -- into algorithmic procedures that allow effective simulation particularly with computer graphics. The estimation problem is also interpreted as a problem of tracking a partially known system under incomplete measurements. Mathematically, the technique described in this paper is based on a theory of set-valued evolution equations with the approximation of solutions formulated in terms of set-valued calculus by ellipsoidal-valued functions

    Ellipsoidal Techniques: Control Synthesis for Uncertain Systems

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    This paper deals with a technique of solving the problem of control synthesis under unknown but bounded disturbances that allows an algrithmization with an appropriate graphic simulation. The original theoretical solution scheme taken here comes from the theory introduced by N.N. Krasovski, from the notion of the "alternated integral" of L.S. Pontriagin and the "funnel equation" in the form given by Kurzhanski and Nikonov. The theory is used as a point of application of constructive schemes generated through ellipsoidal techniques developed by the authors. A concise exposition of the latter is the objective of this paper. A particular feature is that the ellipsoidal techniques introduced here do indicate an exact approximation of the original solutions based on set-valued calculus by solutions formulated in terms of ellipsoidal valued functions only

    Ellipsoidal Techniques: The Problem of Control Synthesis

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    This paper introduces a technique for solving the problem of control synthesis with constraints on the controls. Although the problem is treated here for linear systems only, the synthesized system is driven by a nonlinear control strategy and is therefore generically nonlinear. Taking a scheme based on the notion of extremal aiming strategies of N.N. Krasovski, the present paper concentrates on constructive solutions generated through ellipsoidal-valued calculus and related approximation techniques for set-valued maps. Namely, the primary problem which originally requires an application of set-valued analysis is substituted by one which is based on ellipsoidal-valued functions. This yields constructive schemes applicable to algorithmic procedures and simulation with computer graphics

    Schmuck und Kleidung auf den Damenporträts der Ahnengalerie Harrach

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    Für das Verständnis einer barocken Ahnengalerie des 17. Jahrhunderts können neben der Genealogie der Familie, dem Maler, dem Stil, den Primärquellen auch die, im Bild dargestellten Accessoires als Informationsträger dienen. Der Zugang zu den Ahnengalerien ist oft erschwert, deshalb ist es wichtig alle möglichen Informationsquellen auszuschöpfen. Dabei helfen uns, die dargestellten Schmuckstücke, Kleider, aber oft auch Haartrachten, die in der Zeit der frühen Neuzeit eine bestimmte Bedeutung innehatten. Oftmals können sie daher die Information über eine dargestellte Person ergänzen, präzisieren, vertiefen. Für eine Interpretation müssen wir die Grenzen der kunsthistorischen Betrachtung überschreiten, und uns der Sprache und Geschichte von Schmuck und Kleidung zuwenden. Diese Arbeit widmet sich einigen Frauenporträts des 17. Jahrhunderts aus der Ahnengalerie Harrach. Anhand dieser ausgewählten Damenporträts soll der Bedeutungsinhalt von Schmuck und Bekleidung behandelt werden

    On Approximate Vector Optimization

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    The roots of current interest in the theory of approximate solutions of optimization problems lie in approximation theory and nondifferentiable optimization. In this paper an approximate saddle point theory is presented for vector valued convex optimization problems. The considerations cover different possible types of approximate optimality, including both the efficient, or Pareto-type, which is more frequently used in practical decision making applications, and the absolute, or strict type, which is more of theoretical interest. The saddle point theorems are used to study duality in the context of approximate solutions. The approach of the paper also provides for a unified view of a number of results achieved either in approximate scalar optimization or exact vector optimization

    Ellipsoidal Calculus, Singular Perturbations and the State Estimation Problems for Uncertain Systems

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    One of the basic elements of dynamic modelling of complex systems is the linkage and synchronization of subsystems that develop in different time scales. The relevant techniques applied here are related to a singular perturbation theory for differential systems. A more complicated issue arises for uncertain systems described by differential inclusions, for which an appropriate theory is being developed. In order to make the theory constructive, some further steps are necessary. These are presented in this paper, where a computer-implementable "ellipsoidal" version is given. The results are particularly relevant to the linkage of models related to environmental, demographic and economic problems
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