ISSN 1991-2927
 

ACP № 3 (61) 2020

Author: "Yury Ivanovich Beresnev"

Aleksandr Valerianovich Samonov, Candidate of Sciences in Engineering, Associate Professor; graduated from the A.F. Mozhaysky Military Institute of Engineering; Senior Staff Scientist at the A.F. Mozhaysky Military-Space Academy; an author of more than 30 publications in the field of system analysis, system and software engineering, validation and verification of software, methods and tools of information security. e-mail: a.samonov@mail.ruA. Samonov,

Galina Nikolaevna Samonova, graduated from the Leningrad Institute of Refrigeration Industry; Research Officer at the A.F. Mozhaysky Military-Space Academy; an author of more than 10 publications in the field of system and software engineering, software validation and verification, methods and tools of information security. e-mail: g.samonova@mail.ruG. Samonova,

Sergei Vasilevich Krasnov, Candidate of Sciences in Engineering, Associate Professor; graduated from the Ulyanovsk Higher Military Command School of Communications; completed his postgraduate programs at Ulyanovsk Higher Military Engineering Communication School; Associate Professor of Graduate School of Business and Management of Peter the Great St. Petersburg Polytechnic University; an author of more than 50 publications in the field of design and implementation of information systems and technologies. e-mail: hsm. krasnov@gmail.comS. Krasnov,

Sergei Romanovich Malyshev, Candidate of Sciences in Engineering, Associate Professor; graduated from the A.F. Mozhaysky Military Institute of Engineering; Honored Inventor of the Russian Federation; Associate Professor of the Marshal Budjonny Military Academy of Signal Corps; an author of manuals, articles, and inventions in the field of modern theoretical aspects of radiomonitoring and radioengineering control. e-mail: malishevsr56@ya.ruS. Malyshev,

Iurii Ivanovich Beresnev, Candidate of Military Sciences; graduated from the Marshal Budjonny Military Academy of Signal Corps; Chief Designer at Federal Research-and-Production Center Joint-Stock Company 'Research-and-Production Association 'Mars'; a specialist in the field of organization and building of communications and data exchange systems; an author of publications in the field of design of special-purpose control systems. e-mail: mars@mv.ruI. Beresnev

Methodology for developing a subject-oriented language and tools for creating automated management systems for complex organizational and technical systems 60_10.pdf

Modern technologies for industrial development of complex software and hardware systems are based on model-oriented technologies and tools for visual design, modeling and validation. Practical application of these technologies is complicated by both subjective and objective factors due to their flexibility and being hard-to-develop. One of the ways to reduce the impact of these negative factors is to create special-purpose domain-specific languages and tools supporting design of the systems of a specific class and a specific application domain. The article describes methods and tools for creating domain-specific languages and domain specific modeling (DSM) solutions intended to develop computer-aided control systems for complex organizational and technical systems using technologies and tools developed within the scope of the Eclipse Modeling Project. The most complicated and at the same time least worked out issues are those one, related to the identification and concept formulation of application domain of a DSM solution and the selection of an optimal and appropriate set of tools and structures. The conceptual model of the application domain of computer-aided control systems is formed as a task-oriented ontology using Zachman Framework. It is a set of control functions arranged in hierarchical order, which are performed by management bodies under controlled objects to achieve goals using certain algorithms in accordance with specified time, limited resources and other constraints. DSM solutions, made and used to develop computer-aided control systems, will improve their quality and reduce time, taken to designing due to the following facts: – development of requirements for computer-aided control system and its designing is carried out jointly by experts, analysts and programmers using special tools within the application domain; – the resulting requirements and design solutions are validated and verified as per stringent standards, which allows for correct generation and testing of software code; – end-to-end quality control under all system lifecycle artifacts

Computer-aided control systems, validation and verification, metamodeling, domain-specific languages, DSMsolution, DSM-platform.

2020_ 2

Sections: Computer-aided engineering

Subjects: Computer-aided engineering.



Vladimir Victorovich Kalnikov, Federal Research-and-Production Center Research-and-Production Association Mars, Candidate of Engineering, Associate Professor; graduated from the Faculty of Radioengineering of Kiev Higher Military Communications Engineering College named after M. Kalinin; chief specialist at Federal Research-and-Production Center Research-and-Production Association Mars; specializes in the field of design of special-purpose control systems, building of communications and data-exchange systems; author of publications, inventions in the field of design of special-purpose distributed control systems, communications and data-exchange systems [e-mail: mars@mv.ru]V. Kalnikov,

Alexander Ivanovich Moiseev, Federal Research-and-Production Center Research-and-Production Association Mars, Candidate of Engineering; graduated from the Faculty of Dual Degree of Ulyanovsk State University; leading engineer at Federal Research-and-Production Center Research-and-Production Association Mars; specializes in the field of design of special-purpose control systems; author of publications, inventions and registered software systems in the field of research and building of special-purpose distributed control systems [e-mail: mars@mv.ru]A. Moiseev,

Yury Ivanovich Beresnev, Federal Research-and-Production Center Research-and-Production Association Mars, Candidate of Military Sciences; graduated from the Military Communications Academy named after S. Budenny; chief designer at Federal Research-and-Production Center Research-and-Production Association Mars; specializes in the field of organization and building of communications and data-exchange systems; author of publications in the field of design of special-purpose control systems [e-mail: mars@mv.ru]Y. Beresnev

Parametric Synthesis of Cycle Phasing of Digital Transmission System for Distributed Control System 29_10.pdf

The authors have performed a task statement for a parametric synthesis for a suggested system of cycle phasing with simultaneous search, have developed an algorithm for the solution of parametric optimization tasks and a procedure to find internal parameters of the system of cycle phasing with simultaneous search, and have performed a comparative analysis of the suggested and known systems of cycle phasing.

Parametric synthesis, parametric optimization, internal parameters of system, system of cycle phasing with simultaneous search of clock signal.

2012_ 3

Sections: Telecomm unications systems and computer networks

Subjects: Automated control systems, Computer-aided engineering.


Vladimir Viktorovich Kalnikov, [e-mail: mars@mv.ru ]V. Kalnikov,

Yury Ivanovich Beresnev, [e-mail: mars@mv.ru ] Y. Beresnev

Simulation of Cycle-phasing Systems With Split Seek 21_2.pdf

The article presents a developed simulation model of modified cycle-phasing system with split seek, which allows simulating taking into account a high value of probability and packing of errors, effect of digital-signal slip structure of syncro-groups and ther location in cycle. Taking these facts into account contributed to the increase of adequacy of the simulation model with respect to real systems in case of strong non-stationary noise impact. It also gives and analyses the results of the simulation.

Simulation, cycle-phasing system, algorithm of simulation-model operation.

2010_ 3

Sections: Mathematical modeling, calculi of approximation and software systems

Subjects: Mathematical modeling, Architecture of ship's system.


Vladimir Viktorovich Kalnikov, [e-mail: mars@mv.ru]V. Kalnikov,

Yury Ivanovich Beresnev, [e-mail: mars@mv.ru]Y. Beresnev,

Ruslan Gabdylovich Ziganshin, [e-mail: mars@mv.ru]R. Ziganshin

Mathematical Modeling of Cycle Synchronization Systems With Parallel Search 19_6.pdf

The article analyses known methods and models for analytic mathematical modeling of cycle synchronization systems with parallel search. For the model of mathematical search subsystem, the authors offer and implement a new principle for creation of response weights of cycle syncrosignal identifier. For the mathematical model of holding subsystem, they offer a new criterion for definition of output state of cycle synchronization system from synchronism. The obtained dependencies connect functional criteria and internal parameters of cycle synchronization system.

Mathematical modeling, cycle synchronization system with parallel search for synchro-signal, markovian chains.

2010_ 1

Sections: Modeling for tasks of design and control

Subjects: Mathematical modeling, Mathematical modeling.


Vladimir Viktorovich Kalnikov, [e-mail: mars@mv.ru]V. Kalnikov,

Yury Ivanovich Beresnev, [e-mail: mars@mv.ru] Y. Beresnev

Simulation Model for Cycle Synchronization System of Digital Data Transmission System 15_10.pdf

The authors justify approaches to creation of simulation model for cycle synchronization system of digital data transmission system. The article cites a simulation model for cycle synchronization system built using the Simulink simulation package of the MATLAB 6.5 system. The authors describe in detail one of the main elements of the simulation model called Error Unit allowing to simulate either singular errors or error bursts of random length.

2009_ 1

Sections: Theoretical issues of automation of command and control processes

Subjects: Mathematical modeling, Architecture of ship's system.


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