Mathematical forulation of the problem of controlling complex dynamic objects for the production of nonwovens

The main stages in the process of formalizing and mathematically describing the dynamic regimes of energy-intensive electromechanical systems are determined. Optimality criteria are proposed to reflect specific features of certain machines used in the production of chemical fibers and filaments. A c...

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Veröffentlicht in:	Fibre chemistry 2012-09, Vol.44 (3), p.189-194
Hauptverfasser:	Polyakov, A. E., Polyakov, K. A., Uspenskii, A. A., Dubovitskii, V. A., Filimonova, E. M., Stepanova, M. S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Allowances Chemistry Chemistry and Materials Science Classification Dynamical systems Dynamics Fibers Filaments Machines and Equipment Mathematical analysis Maximum principle Nonwoven fabrics Optimization Organic Chemistry Polymer Sciences
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container_title	Fibre chemistry
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creator	Polyakov, A. E. Polyakov, K. A. Uspenskii, A. A. Dubovitskii, V. A. Filimonova, E. M. Stepanova, M. S.
description	The main stages in the process of formalizing and mathematically describing the dynamic regimes of energy-intensive electromechanical systems are determined. Optimality criteria are proposed to reflect specific features of certain machines used in the production of chemical fibers and filaments. A classification is presented for optimization problems and methods of solving them. The maximum principle is used as a basis for solving static and dynamic problems involving optimization of the speed regimes of energy-intensive equipment used to make nonwovens. The problems are solved with allowance for constraints on the parameters of the given system.
doi_str_mv	10.1007/s10692-012-9427-3
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subjects	Allowances Chemistry Chemistry and Materials Science Classification Dynamical systems Dynamics Fibers Filaments Machines and Equipment Mathematical analysis Maximum principle Nonwoven fabrics Optimization Organic Chemistry Polymer Sciences
title	Mathematical forulation of the problem of controlling complex dynamic objects for the production of nonwovens
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