ISSN 1991-2927
 

ACP № 4 (62) 2020

Author: "Aleksandr Viktorovich Shestakov"

Aleksandr Viktorovich Shestakov, Rubin Research Institute JSC, Candidate of Engineering; graduated from Leningrad Higher Military Engineering School of Communications; First Deputy Director General of Rubin Research Institute JSC for Quality Assurance, Senior Researcher; an author of articles and inventions in the field of information system analysis and synthesis. [e-mail: inforubin@rubin-spb.ru]A. Shestakov

The Method of Validating the Structural Parametric Conformity of the Experimental Area to the Functional Communication System 000_2.pdf

The article considers decision making issues aimed at modernizing functional communication systems on the basis of advanced technologies. Conclusion can be drawn on the basis of the analysis. The attention is drawn to the conclusion consisting the fact that the most promising direction in this sphere is using experimental areas for validating system engineering solution in case of constructing and modernizing communication systems. However, experimental areas should have a similarity measure to the original (a functional communication network). Using a graph model of a communication system and the method of graph sparsification allowing to obtain samples(less dimensionality graphs) that are isomorphic with respect to the initial graph would be appropriate. The article reviews the algorithm of forming a graph model of an experimental area with the use of sparsification. It is shown that in the result of the initial graph sparsification, a sharpen sequence of samples (subgraphs) demonstrating the structure of a functional communication system on the corresponding stage of the modernization (also in the experimental area) was obtained. The authors consider the structure of the sequence samples for the specified number of modernization stages of the functional communication system got through the initial graph sparsification. The statement of the problem of forming the experimental area in the basis of structural parametric construction of the functional communication system is given. The analytical apparatus and the algorithm are demonstrated. The solutions of the application field extension for structuring the communication system for its sequent modernizing stage. The analytical correspondence between the target function and conditions of the task solution is demonstrated. As the result, the method of sequent transformation of the functional system structure into the experimental area with providing its structural parametric similarity to the original in the form of a set of corresponding procedures is presented. The original refers to the isomorphic communication system, which elements, functions, properties, and relations that are of importance to the system can be put into one-to-one correspondence.

Automated control systems, special-purpose communication networks, network graph, graph model, experimental area, sparsification, samples, isomorphism.

2016_ 1

Sections: Automated control systems

Subjects: Automated control systems, Architecture of ship's system.


Anatolii Iurevich Runeev, Rubin Research Institute OJSC, Doctor of Military Sciences, Professor, Honored Worker of Science of the Russian Federation, Director General of Rubin Research Institute OJSC; graduated from Military Academy of Communications; an author of articles, monographs, and inventions in the field of the analysis and synthesis of information systems. [e-mail: inforubin@rubin-spb.ru]A. Runeev,

Vladimir Aleksandrovich Baboshin, Rubin Research Institute OJSC, Candidate of Engineering, Associate Professor; graduated from Ulyanovsk Higher Military Command College of Communications, Head of the Department of Rubin Research Institute OJSC; an author of articles and inventions in the field of the analysis and synthesis of information systems. [e-mail: boboberst@mail.ru]V. Baboshin,

Iurii Mikhailovich Sherstyuk, Rubin Research Institute OJSC, Doctor of Engineering, Associate Professor; graduated from Leningrad Higher Military Engineering School of Communications; Deputy Director General of Rubin Research Institute OJSC on software design; an author of articles, monographs, and inventions in the field of the analysis and synthesis of information systems. [e-mail: inforubin@rubin-spb.ru]I. Sherstyuk,

Aleksandr Viktorovich Shestakov, Rubin Research Institute OJSC, Candidate of Engineering; graduated from Leningrad Higher Military Engineering School of Communications; First Deputy Director General of Rubin Research Institute OJSC, Deputy Director General of Rubin Research Institute OJSC for Scientific and Research Affairs, Senior Researcher; an author of articles, inventions in the field of the analysis and synthesis of information systems. [e-mail: inforubin@rubin-spb.ru]A. Shestakov

Using Industrial Technologies for the Purpose of Designinig Automated Communications Control Systems 000_4.pdf

The article considers the use of industrial technologies in the process of designing modern hardware-software complexes of automated control systems (ACS) in the context of creating Integrated Information Space of the Russian Federation as network-oriented united information space built on the basis of robust combined high-performance network. The article also covers the basic information about designing special-purpose infocommunication systems and problems that have to be treated through the use of ACS. The authors attempted the analysis of the existing control system disadvantages and made the conclusion about the necessity of solving the unification problem of multi-purpose domestic ACS based on proprietary principles of organization. The article presents the certain features of unified platform solutions (UPS). UPS are defined as fundamentals for the development of infocommunication systems on the basis of unified technical platform development practical experience in the process of special-purpose ACS creation with the use of the products unification principle. The principle consists in the optimization of possible particular (individual) solutions variety in the context of general properties and characteristics leading the product and its execution to the integrated system of standard constructions. The methodology of determining the minimum number of resources in UPS of a varying configuration is given. It is shown that with the use of this methodology a set of solutions with varying configuration can be generated. The set forms the basis for a unified platform of special-purpose equipment series.

Integrated information space, data management, infocommunication system, automated control system, automated information systems, industrial technology, unified technical platform, modularity, unification.

2015_ 4

Sections: Automated control systems

Subjects: Automated control systems, Information systems, Architecture of ship's system.


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