ISSN 1991-2927
 

ACP № 1 (55) 2019

Author: "Vladimir Viktorovich Kalnikov"

Iurii Petrovich Egorov, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’, Doctor of Science in Engineering, Professor; graduated from the Faculty of Radioengineering of the Admiral Makarov Leningrad Higher Maritime School of Engineering; Chief Staff Scientist at Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’; specializes in the field of macro-design of large-scale information management systems; an author of articles, monographs, patents in the field of computer-aided control systems design. [e-mail: yupe@mail.ru]I. Egorov,

Aleksandr Ivanovich Moiseev, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars, Candidate of Science in Engineering; graduated from the Faculty of Dual Degree Programs of Ulyanovsk State University; Leading Engineer at FRPC JSC ‘RPA ‘Mars’; specializes in the field of the special-purpose management system development; an author of articles, inventions and certificated software complexes in the field of research and building of special-purpose distributed management systems. [e-mail: mars@mv.ru]A. Moiseev,

Anatolii Ivanovich Piatakov, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars, Candidate of Science in Engineering; graduated from the Marshal Budjonny Military Academy of Signal Corps; completed his postgraduate studies in the Military Academy of Communications; Chief Specialist at FRPC JSC ‘RPA ‘Mars’; specializes in the field of organization and creation of discrete messages transmitting systems; an author of articles in the field of the automation complexes reliability and data communication. [e-mail: uljanovsk-anatol@mail.ru]A. Piatakov,

Vladimir Viktorovich Kalnikov, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars, Candidate of Science in Engineering, Associate Professor; graduated from the Faculty of Radioengineering of Kalinin Higher Military Engineering School of Communications (of Kiev); Chief Specialist at FRPC JSC ‘RPA ‘Mars’; specializes in the field of the special-purpose management system development and organization of communication systems and data exchange systems; an author of articles, textbooks, and inventions in the field of the development of special-purpose distributed management systems, communication and data exchange systems. [e-mail: mars@mv.ru]V. Kalnikov

Evaluating of Functional Capabilities of Automation Means Complexes of Automation Management Systems of the Armed Forces Under Conditions of Sub-system Failure Flow 55_1.pdf

In view of the increasing complexity of the tasks given to the automation means complexes of automated management systems of the Armed Forces, designers focus on the task to evaluate the function capabilities of complexes under conditions of the sub-system failure flow. The article deals with the problems of a functional approach to the reliability of automation means complexes, and the evaluation of its functional readiness to solve the tasks.Authors offer a hierarchical functional model of the automation means complexes presented with the set of common, special, and local control functions. It is proved that exactly the functional approach meets the requirements of operation composition when evaluating the readiness of the automation means complexes to solve the functional objectives.When defining failure criteria, authors outline that only local indivisible function can have two states such as operability and inoperability. The common and special functions being multivariate can fail partially and, at the same time, partially operate correctly.Authors present an operational availability factor chosen as a key characteristic of the functional automation means complex readiness to solve functional tasks given to the military authorities. It is defined by the convolution of all common and special control functions included.An approach to evaluate the functional capabilities of automation means complexes under conditions of the sub-system failure flow through efficiency preservation factor is proposed.

Automation means complex, a functional model of automation means complex, control functions, functional system, control function failure, control effectiveness.

2019_ 1

Sections: Automated control systems

Subjects: Automated control systems.



Iurii Dmitrievich Ukraintsev, Ulyanovsk State University, Candidate of Engineering; graduated from the Faculty of Radiocommunications of the Leningrad Military Academy of Communications; Associate Professor of the Department of Telecommunication Technologies and Networks at Ulyanovsk State University; an author of articles, monographs inventions in the field of statistical analysis and synthesis of telecommunication systems. [e-mail: 9019471930@mail.ru]I. Ukraintsev,

Vladimir Viktorovich Kalnikov, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’, Candidate of Engineering, Associate Professor; graduated from Radioengineering Faculty of Kiev Higher Military Engineering College of Communications; Chief Specialist at FRPC JSC ‘RPA ‘Mars’; specializes in the field of special-purpose control system design, creation of communication and data exchange systems; an author of articles and inventions in the field of designing the distributed control systems of special-purpose, communication and data exchange systems. [e-mail: mars@mv.ru]V. Kalnikov

An Alternate Bayesian Approach to the Detection of an Adaptive Decision Threshold Scheme for the Receiver At Decameter Radio Links 52_9.pdf

The article deals with an approach to the determination of the decision threshold scheme of a receiving device in decameter radio link, which implements the alternative Bayesian method. In contrast to the classical approach when the decision threshold scheme is determined with the assumption that the probability density function (PDF) of the received signal is subject to the Gaussian low, an approach based on the current recovery of instantaneous values of the received signal envelope in each distribution path is proposed. The PDF recovery algorithm is based on the nonparametric Parzen-Rosenblatt density estimation method. The estimating is carried out during a specified communication session. In this case, the most probable values of the signal (mode) are determined if the noise interference is absent and present, the decision threshold scheme is established in accordance with the real situation on the communication line. Then, on the basis of the mode shift, a decision is made about the signal-error probability. On the basis of simulation modeling, the efficiency of the approach is shown when operating at decameter radio links working under nonparametric prior uncertainty relative to signals and interference.

Signal depression, instantaneous values of the received signal envelope, parzen method of the probability density estimation, mode, decision threshold scheme of a receiving device, error probability.

2018_ 2

Sections: Mathematical modeling

Subjects: Mathematical modeling.


Aleksandr Ivanovich Moiseev, FRPC OJSC 'RPA 'Mars', Candidate of Engineering, graduated from the Dual Degree Faculty at Ulyanovsk State University; a lead programmer at FRPC OJSC 'RPA 'Mars'; is majoring in the field of design of special-purpose control systems; an author of papers, 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,

Vladimir Viktorovich Kalnikov, FRPC OJSC 'RPA 'Mars', Candidate of Engineering, Associate Professor, graduated from the Radio-Engineering Faculty at Kiev Higher Military School of Communications named after M.I. Kalinin, finished his post-graduate studies of the same School; a chief specialist at FRPC OJSC 'RPA 'Mars'; his major is the design of special-purpose control systems; an author of papers, manuals and inventions in the field of design of special-purpose distributed control systems, communications and data-exchange systems. [e-mail: mars@mv.ru]V. Kalnikov

Analysis of the State of a Distributed Control System 35_2.pdf

Abstract The article examines an issue about how to estimate the current state of distributed control systems with the analytical models obtained as for indices of secrecy, information awareness and stability. When estimating the secrecy of control, the emission time and the amplitude of the signal of a give-away sign are taken into account. It is suggested to calculate the information awareness of operations posts with the weapons under their control using the entropic approach. The obtained results of the mathematical expression have the parameters for the required observation accuracy, errors, acquisition range, and the information update rate included. We have developed statistical and dynamic variants for such a characteristic of a distributed control system. It is suggested to analyze the control stability along with the estimation of survivability, reliability and noise-resistance of operations posts. The average number of data transmission paths, bandwidth ratio and its assignment evenness, the operations posts’ average load and its assignment evenness are chosen as the private parameters for the control survivability. A recurrent algorithm for the appropriate graph conversion and analysis is suggested to estimate the system reliability. The control noise-resistance is represented as a quantity derivative of the noise probability and the probability of an operation post to keep its performance ability.

State, distributed control systems, combat readiness, secrecy, information awareness, stability, estimation.

2014_ 1

Sections: Automated control systems

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


Vladimir Viktorovich Kalnikov, Federal Research-and-Production Center Open Joint-Stock Company ’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 Open Joint-Stock Company ’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,

Aleksandr Ivanovich Moiseev, Federal Research-and-Production Center Open Joint-Stock Company ’Research-and-Production Association ’Mars’, Candidate of Engineering, graduated from the Faculty of Dual Education of Ulyanovsk State University; Leading Engineer at Federal Research-and-Production Center Open Joint-Stock Company ’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

Function of Control System of Combat Facilities in Decentralized Mode 32_1.pdf

The issues of Distributed Control Systems (DCS) functioning are examined. A way to a distributed problem solving without a separation of decision-making center is furnished. A generalized solution algorithm is developed. A computing experiment proving the introduced method effectiveness is carried out.

Distributed control systems, decentralized control mode, distributed problem solving algorithm.

2013_ 2

Sections: System analysis, data management and processing

Subjects: Automated control systems, Information systems.


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.


Ruslan Gabdullovich Ziganshin, Federal Research-and-Production Center Open Joint-Stock Company 'Research-and-Production Association 'Mars', Candidate of Military Sciences; graduated from the Military Communications Academy named after S. Budenny; finished his post-graduate studies at the same academy; lead engineer at Federal Research-and-Production Center 'Research-and-Production Association 'Mars'; specializes in the field of operation and maintenance of communications equipment and C2 systems; author of publications in the field of reliability theory and technical diagnostics. [e-mail: zuganshin-ruslan@yandex.ru]R. Ziganshin,

Vladimir Viktorovich Kalnikov, Federal Research-and-Production Center Open Joint-Stock Company 'Research-and-Production Association 'Mars', Candidate of Engineering, Associate Professor; graduated from the Faculty of Radio-Engineering 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 multi-channel electricity and fiber-optic communications; author of articles, text-books, inventions in the field of design of digital and fiber-optic transmission systems. [e-mail: kvvik@bk.ru]V. Kalnikov,

Alexander Leonidovich Savkin, Federal Research-and-Production Center Open Joint-Stock Company 'Research-and-Production Association 'Mars', Candidate of Military Sciences, Associate Professor; graduated from Ulyanovsk Higher Military Command Communications College, the Military Communications Academy named after S. Budenny; finished his post-graduate studies at the same academy; chief specialist at Federal Research-and-Production Center 'Research-and-Production Association 'Mars'; author of papers, text-books, articles in the field of development and modeling of C3 systems. [e-mail: mars@mv.ru]A. Savkin

Modeling for Forecasting of Radioelectronic-product Technical State 26_6.pdf

The article deals with an approach to forecasting of technical state of radioelectronic products on basis of a method of static modeling. It also cites basic ideas of the mathematical support for the considered modeling method, and analyses ways of developing modeling algorithms to forecast technical state of radioelectronic products from the point of view of their efficiency in computer implementation.

Forecasting of technical state, radioelectronic product, method of static modeling, tasks of static modeling, modeling algorithm, ways of developing modeling algorithms.

2011_ 4

Sections: Mathematical modeling, calculus of approximations and software systems

Subjects: Mathematical modeling.


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.


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

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

Anatolii Ivanovich Pyatakov, [e-mail: mars@mv.ru] A. Pyatakov

Forecast of Technical State of Radio Electronic Products During Definition of Repair Technology and Set of Spares 20_16.pdf

The article analyses known methods of forecast of technical state of radio electronic products. It cites fundamentals of mathematical apparatus used within each considered forecast method. It suggests a set of quality factors for forecast methods, allowing to evaluate their quantity subject to task statement and conditions of its solution. It considers methods for evaluation of forecast precision of technical state of radio electronic products.

Forecasting of technical state, forecast methods, forecasting process, direct forecasting, inverse forecasting, analytical forecasting, probabilistic forecasting.

2010_ 2

Sections: Shipborne c2 system: methodology for creation of systems, information technology, facilities and components

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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