Article 13418

Title of the article

A GENERALIZED COMPLEX MATHEMATICAL MODEL OF A DISTRIBUTED COMMUNICATION NETWORK 

Authors

Belov Andrey Sergeevich, Candidate of military sciences, associate professor, doctoral student of the research center, Mikhailovskaya Military Artillery Academy (22 Komsomola street, Saint-Petersburg, Russia), E-mail: andrej2442016@yandex.ru
Shumilin Vyacheslav Sergeevich, Associate, Academy of Federal Guard Service of the Russian Federation (35 Priborostroitelnaya street, Orel, Russia), E-mail: v-shumilin@mail.ru
Kazenov Ivan Dmitrievich, Postgraduate student, research center, Mikhailovskaya Military Artillery Academy (22 Komsomola street, Saint-Petersburg, Russia), E-mail: kazenov777@gmail.com 

Index UDK

621.391 

DOI

10.21685/2072-3059-2018-4-13 

Abstract

Background. The object of the study is a distributed communication network (DCN) at control points (CP) of various levels. The subject of the study is a mathematical model for simulating the functioning of the DCN at control points of various levels. The work purpose is to present a scientific methodological approach (additional method) to implementation in a generalized complex mathematical model of fundamentally new factors that make it possible to increase the efficiency of the functioning of the DCN at the CP of various levels.
Materials and methods. The model is mainly based on the axiomatic method of cognition. The block of axioms is formed on the basis of objective laws that determine the form and type of connection between the elements of the material carriers of the processes under consideration.
Results. A generalized DCN model is developed that allows to take into account fundamentally new factors, such as the movement of DCN elements (field nodes and subscribers), the use of the DCN telecommunication resource of communication systems of control points and the unified telecommunications network of the Russian Federation (UTN RF), information interaction of elements nodes of communication) DCN with communication systems of control points. The model is implemented in the form of a patent of the Russian Federation for an invention.
Conclusions. After bringing the model to software implementation, it can be used in the design and development of the DCN, and also, when setting requirements for the main indicators of complex technical systems operating in the distributed territory and in the educational process of higher education institutions. 

Key words

distributed communication network, mathematical model, scientific and methodical approach, functioning, telecommunication resource 

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References

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Дата создания: 23.04.2019 14:51
Дата обновления: 23.04.2019 16:00