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" Advanced control techniques in complex engineering systems : "
Yuriy P. Kondratenko, Arkadii A. Chikrii, Vyacheslav F. Gubarev, Janusz Kacprzyk, editors.
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BL
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| Record Number
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862372
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| Title & Author
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Advanced control techniques in complex engineering systems : : theory and applications : dedicated to Professor Vsevolod M. Kuntsevich /\ Yuriy P. Kondratenko, Arkadii A. Chikrii, Vyacheslav F. Gubarev, Janusz Kacprzyk, editors.
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| Publication Statement
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Cham, Switzerland :: Springer,, [2019]
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| Series Statement
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Studies in systems, decision and control ;; volume 203
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1 online resource
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| ISBN
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3030219275
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: 9783030219277
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9783030219260
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| Notes
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8 Conclusion
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| Contents
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Intro; Academician Vsevolod M. Kuntsevich; Preface; Contents; Fundamental Theoretical Issues in Controlled Complex Engineering Systems; Method of Resolving Functions in the Theory of Conflict-Controlled Processes; 1 Introduction; 2 Problem Statement and Players Goals; 3 Pontryagin's First Direct Method; 4 Schemes of the Method of Resolving Functions; 5 Scheme with Fixed Points of the Terminal Set Solid Part; 6 Connection of the First Direct Method with the Method of Resolving Functions; 7 Conclusions; References
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5 The Motions of the Teams6 The Overall Solution and Calculation Scheme; 7 Conclusion; References; Model Predictive Control for Discrete MIMO Linear Systems; 1 Introduction; 2 Formulation of the Problem; 3 Variational Method of the Problem Solving; 4 Exhaustive Search Method; 4.1 Definition of Admissible Control Set; 4.2 Finding the Optimal Control; 4.3 Control Vector Index Subsets; 4.4 Applying Artificial Constraints; 4.5 The Case of Determined System; 4.6 The Case of Overdetermined System; 4.7 The Case of Underdetermined System; 5 Optimal Aim Approach; 6 The Order of the Exhaustive Search
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7 Stabilization Problem8 Simulation Results; 9 Conclusion; References; Krasovskii's Unification Method and the Stability Defect of Sets in a Game Problem of Approach on a Finite Time Interval; 1 Introduction; 2 Game Problem of Approach on a Finite Time Interval; 3 Stability Property in the Approach Problem; 4 The Stability Defect of the Set in the Approach Problem; 5 An Example of the Set W* Satisfying Conditions C, E.1 and E.2; 6 Conclusion; References; Control of Stochastic Systems Based on the Predictive Models of Random Sequences; 1 Introduction
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Impact of Average-Dwell-Time Characterizations for Switched Nonlinear Systems on Complex Systems Control1 Introduction; 2 Background and Mathematical Preliminaries; 2.1 A Couple of Preliminary Notes; 2.2 On Basics of Switched Systems Theory; 3 Fast and Slow Switching Modes: Recent Discoveries; 3.1 Novel Insights into the Complexity of Switching; 3.2 Novel Supporting Evidence via Simulation Experiments; 4 Concluding Remarks and Future Research; References; On the Problem of Optimization in Group Control; 1 Introduction; 2 Initial Positions; 3 The Main Problem; 4 The Problem Solution
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| Abstract
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This book presents an authoritative collection of contributions by researchers from 16 different countries (Austria, Chile, Georgia, Germany, Mexico, Norway, P.R. of China, Poland, North Macedonia, Romania, Russia, Spain, Turkey, Ukraine, the United Kingdom and United States) that report on recent developments and new directions in advanced control systems, together with new theoretical findings, industrial applications and case studies on complex engineering systems. This book is dedicated to Professor Vsevolod Mykhailovych Kuntsevich, an Academician of the National Academy of Sciences of Ukraine, and President of the National Committee of the Ukrainian Association on Automatic Control, in recognition of his pioneering works, his great scientific and scholarly achievements, and his years of service to many scientific and professional communities, notably those involved in automation, cybernetics, control, management and, more specifically, the fundamentals and applications of tools and techniques for dealing with uncertain information, robustness, non-linearity, extremal systems, discrete control systems, adaptive control systems and others. Covering essential theories, methods and new challenges in control systems design, the book is not only a timely reference guide but also a source of new ideas and inspirations for graduate students and researchers alike. Its 15 chapters are grouped into four sections: (a) fundamental theoretical issues in complex engineering systems, (b) artificial intelligence and soft computing for control and decision-making systems, (c) advanced control techniques for industrial and collaborative automation, and (d) modern applications for management and information processing in complex systems. All chapters are intended to provide an easy-to-follow introduction to the topics addressed, including the most relevant references. At the same time, they reflect various aspects of the latest research work being conducted around the world and, t herefore, provide information on the state of the art.
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| Subject
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Control theory.
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Control theory.
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| Dewey Classification
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629.8/312
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| LC Classification
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QA402.3.A38 2019
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| Added Entry
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Chikrii, Arkadii A.
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Gubarev, Vyacheslav F.
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Kacprzyk, Janusz
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Kondratenko, Yuriy P.
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