Indian Journal of Science and Technology

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Theoretical Aspects of the Optimization of Parameters and Discretization of Control of Processing and Metallurgical Production’s Technology Products


Affiliations
1 Industrial Electronics Department, North-Caucasian Mining and Metallurgical Institute (State Technological University), Vladikavkaz, Russian Federation
 

This article deals with the issues of optimizing the number of technology products controlled in the Automated Systems for Analytical Control (ASAC) and the elements identified in them, as well as optimal control over the discretization of sending composited samples to analysis. The article discusses the developed and practically applied method and algorithm for calculating the optimal time interval between proximate measurements of the same technology product. Scientific novelty of the proposed method and algorithm is in consideration of the real rate of change of the controlled parameter. The article is meant for developers and users of Automated Systems for Analytical Control (ASAC) of the material composition of recycled technology products.

Keywords

Analytical Control, Composited Sample, Representative Snap Sample, Sampling Algorithm, Sampling and Reconstruction of Continuous Information, Technological Product Testing
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  • Theoretical Aspects of the Optimization of Parameters and Discretization of Control of Processing and Metallurgical Production’s Technology Products

Abstract Views: 168  |  PDF Views: 0

Authors

Yuriy Genrikhovich Lobotskiy
Industrial Electronics Department, North-Caucasian Mining and Metallurgical Institute (State Technological University), Vladikavkaz, Russian Federation
Valeriy Vasilyevich Khmara
Industrial Electronics Department, North-Caucasian Mining and Metallurgical Institute (State Technological University), Vladikavkaz, Russian Federation

Abstract


This article deals with the issues of optimizing the number of technology products controlled in the Automated Systems for Analytical Control (ASAC) and the elements identified in them, as well as optimal control over the discretization of sending composited samples to analysis. The article discusses the developed and practically applied method and algorithm for calculating the optimal time interval between proximate measurements of the same technology product. Scientific novelty of the proposed method and algorithm is in consideration of the real rate of change of the controlled parameter. The article is meant for developers and users of Automated Systems for Analytical Control (ASAC) of the material composition of recycled technology products.

Keywords


Analytical Control, Composited Sample, Representative Snap Sample, Sampling Algorithm, Sampling and Reconstruction of Continuous Information, Technological Product Testing



DOI: https://doi.org/10.17485/ijst%2F2015%2Fv8iS10%2F123498