ISSN 1991-2927
 

ACP № 2 (56) 2019

Author: "Yuriy Petrovich Egorov"

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 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 at 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 monographs, articles, inventions in the field of computer-aided control systems design. [e-mail: yupe@mail.ru]I. Egorov,

Anatolii Ivanovich Piatakov, FRPC JSC ‘RPA ‘Mars’, Candidate of Science in Engineering; graduated from the Marshal Budjonny Military Academy of Signal Corps; completed his postgraduate studies ibidem; Chief Specialist of 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

Optimization of Automated Troop Command and Control System Operation Effectiveness in Terms of Reliability Criterion 53_1.pdf

A right selection between performance evaluation of effectiveness and functioning of automation solutions for automated troop command and control systems (hereinafter referred to as the C2 Systems) is the most important research aspect of its functioning effectiveness. C2 Systems, like any other large hardware and software complexes, have a range of technical features that provide meeting of requirements for these systems. Requirements in its turn are of regulatory nature specified in directive documents on automation of the Armed Forces of the Russian Federation. Reliability is one of the important features that have an impact on effectiveness of C2 Systems functioning. The article deals with a model of estimation of C2 Systems functioning when hardware and software failure. The estimation of C2 Systems effectiveness was demonstrated to refer to deterministic evaluation procedures and it can be represented as a multiplicative convolution of reliability performance. Two approaches to the estimation of effectiveness were unveiled and one of these approaches was chosen on a reasonable basis. The presented techniques allow changing the specific reliability performances of specific hardware and software complexes to a summarized system reliability value pertaining to a target function of the automated complex. The given approach to optimization of automated complexes in terms of cost-effectiveness factor allows to achieve the required performances at minimal costs.

Reliability, reliability evaluation, estimation of effectiveness, reliability of automated systems, reliability performance, retention factor.

2018_ 3

Sections: Automated control systems

Subjects: Automated control systems.



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

Anatolii Ivanovich Pyatakov, Federal Research-and-Production Center Open Joint Stock Company ‘Research-and-Production Association ‘Mars’, Candidate of Engineering; graduated from the S.M. Budyonny Military Academy of Signal Corps; finished his post-graduate studies at the same academy; Chief Specialist of Federal Research-and-Production Center Open Joint Stock Company ‘Research-and-Production Association ‘Mars’; specializes in organization and creation of discrete messages transmitting systems; an author of articles in the field of coding and increasing validity of discrete information. [e-mail: uljanovsk-anatol@mail.ru]A. Pyatakov,

Liliia Irfanovna Suleimanova, Federal Research-and-Production Center Open Joint Stock Company ‘Research-and-Production Association ‘Mars’, Candidate of Engineering; graduated from the Power Faculty of Ulyanovsk State Technical University; Deputy Chief Designer of Federal Research-and-Production Center Open Joint Stock Company ‘Research-and-Production Association ‘Mars’; an author of articles in the field of information processing hardware components designing. [e-mail: suleimanova.lili@mail.ru]L. Suleimanova

Effectiveness of Complex Application of Increasing Data Processing Validity Methods 39_1.pdf

An analysis for destructive factors effecting on data processing validity under conditions of complex electromagnetic environment is carried out. It is noted that an electromagnetic pulse (EMP) makes the most hazard effect on computer appliances (CA) functioning. The electromagnetic pulse leads to computer appliances functioning temporary problems, namely to errors or a computer appliance elements physical destruction that is a failure. The fulfillment of requirements for data processing validity under electromagnetic effect is not provided without implementation of increasing validity methods in CA.The article is dedicated to data processing validity researches in case of computer appliances functioning problems caused by an effect of electromagnetic pulse. The methods for the increasing of data processing validity based on information, structure, and temporary redundancy are considered. A procedure for CA data processing validity specification is provided for each of these methods. The paper captures each of these methods benefits and notes that using these methods separately does not provide fulfillment of the requirements to all validity classes that are defined by international standards. To obtain the best possible result, it is necessary to use the combination of all these methods.

Computer appliance, electromagnetic pulse, data processing validity, increasing validity methods’ combination.

2015_ 1

Sections: Automated control systems

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


Sergey Aleksandrovich Ageev, Military Academy of Communications, Candidate of Engineering, Associate Professor, Advanced Doctoral Student at the Military Academy of Communications (St. Petersburg); graduated from the Faculty of Radio-Engineering of Ulyanovsk Polytechnic Institute; specializes in the field of telecommunications system design; an author of articles and patents in the field of data-transfer system [e-mail: serg123_61@mail.r]S. Ageev,

Igor Borisovich Saenko, St. Petersburg Institute for Informatics and Automation of the Russian Academy of Sciences, Doctor of Engineering, Professor; graduated from the Military Academy of Communications (St. Petersburg); completed his post-graduate and advanced doctoral programs at the same Academy; Professor at the St. Petersburg Institute for Informatics and Automation of the Russian Academy of Sciences; specializes in the field of creation and development of information-management systems; an author of monographs, articles, and patents in the same field. [e-mail: ibsaen@mail.ru]I. Saenko,

Yuriy Petrovich Egorov, Federal Research-and-Production Center Open Joint Stock Company ‘Research-and-Production Association ‘Mars’, Doctor of Engineering, Professor; graduated from the Faculty of Radio-Engineering of the Admiral Makarov Leningrad Higher Marine School of Engineering; Chief Staff Scientist at Federal Research-and-Production Center Open Joint Stock Company ‘Research-and-Production Association ‘Mars’, Ulyanovsk; specializes in the field of macro-design of large-scale information-management systems; an author of monographs, articles, and patents in the field of computer-aided troop C2 systems design. [e-mail: yupe@mail.ru]Y. Egorov,

Anatoliy Afanasevich Gladkikh, Ulyanovsk State Technical University, Candidate of Engineering; Professor at the Department of Telecommunications of Ulyanovsk State Technical University; graduated from the Marshal Budenny Military Academy of Communications; completed his post-graduate studies at the same Academy; specializes in the field of signal-code sequence synthesis and antinoise coding in telecommunication systems; an author of articles and patents in this subject area [e-mail: a_gladkikh@mail.ru]A. Gladkikh,

Aleksandr Valentinovich Bogdanov, Research-and-Development Center at the Marshal Budenny Military Academy of Communications, Candidate of Military Sciences, Associate Professor, Deputy Head of the Research-and-Development Center at the Marshal Budenny Military Academy of Communications; graduated from Military Academy of Communications; completed his post-graduate studies at the same Academy; specializes in the field of creation and development of information-management systems for communications control. [e-mail: bog-saha@yandex.ru]A. Bogdanov

Intelligent Hierarchical Information Security Risk Management in Protected Special-purpose Multiservice Networks 37_10.pdf

The main approaches to the elaboration of intellectual methods and algorithms synthesized on their base for the assessment and risks management of the information security for protected multi-service networks are considered. The priority for improving such network structures is the efficiency enhancement of the management cycle, the management reliability and the expediency of the responses to the external destructive impact on the network. It is shown that the diversity, the heterogeneity, the incompleteness, the high dimensionality and the inaccuracy of the input data used in the network security management tasks predetermine the necessity of the use of means and methods of the artificial intelligence, in particular, the construction of the prediction analysis generated by the expert, which are formalized as fuzzy sets. Within the framework of this model the hierarchical interaction management tasks are developed and proved. The conceptual provisions of intellectual information security risk management network are provided; the intellectual multi-agent framework for the risk assessment of the network threats as well as the algorithms of their functioning are developed. The study results of the numerical mathematical modeling of the functioning of the intellectual multi agent relating the assessment of the threats to the information network security network are presented.

Telematic network services, tmn model, intelligent management, fuzzy inference, knowledge base, linguistic variable.

2014_ 3

Sections: Artificial intelligence

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


Iurii Petrovich Egorov, FRPC OJSC ‘RPA ‘Mars’, Doctor of Engineering, Professor; graduated from the Faculty of Radio-Engineering at Leningrad Higher Maritime School of Engineering named after Admiral Makarov; a chief staff scientist at FRPC OJSC ‘RPA ‘Mars’; specializes in the field of macro-design of large-scale information-management systems; has monographs, articles, and patents in the field of design of computer-aided C2 systems. [e-mail: yupe@mail.ru]I. Egorov,

Anatolii Ivanovich Piatakov, FRPC OJSC ‘RPA ‘Mars’, Candidate of Engineering, graduated from Military Communications Academy named after S. Budenny; finished his post-graduate study at the same academy; a chief specialist at FRPC OJSC ‘RPA ‘Mars’; specializes in the field of organization and construction of the discrete-message transmission systems; an author of articles in the field of reliability of automated facilities and data transmission. [e-mail: ]A. Piatakov,

Ilia Vasilevich Chernyshev, Ulyanovsk State Technical University, Candidate of Military Sciences; graduated from Novosibirsk Electrotechnical Institute of Communications; finished his post-graduate study at the Military Communications Academy named after S. Budenny; Ulyanovsk State Technical University; Associate Professor at the Department of Economics and Management from the Faculty of Economics and Mathematics at Ulyanovsk State Technical University; an author of text-books and articles in the field of development and modelling of computer-aided control systems. [e-mail: chernyshev@ulstu.ru]I. Chernyshev

Evaluation of the Influence of Compulsory Checking on Hardware-and-software Complex Reliability of Computer-aided Control System 33_3.pdf

The article deals with a method of a reliability improvement of a hardware and software complex for a computer-aided control system which is based on the float-time usage. The paper illustrates that the float time resulting from the functional service of the hardware and software complex may be used for a compulsory checking of the complex operation. A model of complex functioning with the float time is given. Basic ideas of the compulsory checking, its parameters and its influence on complex reliability indexes are evaluated.

Reliability of hardware and software complex, float time, compulsory checking, reliability indexes.

2013_ 3

Sections: System analysis, data management and processing

Subjects: Automated control systems.


Sergey Alexanderovich Ageev, Military Communications Academy (St. Petersburg), Candidate of Engineering, Associate Professor, advanced doctoral student of the Military Communications Academy (St. Petersburg); graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; head of a scientific and technical centre of Federal State Unitary Enterprise Central Communications Research Institute - Leningrad Department of Central Communications Research Institute; specializes in the field of telecommunications-system design; author of articles, patents in the field of data-transfer systems [e-mail: serg123@mail.ru]S. Ageev,

Igor Borisovich Saenko, St. Petersburg Institute for Informatics and Automation of the Russian Academy of sciences, Doctor of Engineering, Professor, graduated from the Military Communications Academy, completed his post-graduate and advanced doctoral programs at the same academy; leading staff scientist at St. Petersburg Institute for Informatics and Automation of the Russian Academy of sciences (St. Petersburg), specializes in the field of creation and development of information-management systems; author of monographs, articles and patents in this field [e-mail: ibsaen@mail.ru]I. Saenko,

Yury Petrovich Egorov, Federal Research-and- Production Center Open Joint-Stock Company Research-and-Production Association Mars (Ulyanovsk), Doctor of Engineering, Professor; graduated from the Faculty of Radioengineering of Leningrad Higher Marine School named after admiral S. Makarov; chief staff scientist at Federal Research-and- Production Center Open Joint-Stock Company Research-and-Production Association Mars (Ulyanovsk); specializes in the field of macro-design of large-scale information-management systems; author of monographs, articles, patents in the field of design of computer-aided C2 systems for troop control [e-mail: yupe@mail.ru]Y. Egorov,

Evgeny Igorevich Zozulia, Federal State Unitary Enterprise Central Communications Research Institute - Leningrad Department of Central Communications Research Institute, Post-graduate student of St. Petersburg National Research University of Information Technologies, Mechanics and Optics; graduated from St. Petersburg University ITMO, the Faculty of Information Technologies and Programming; head of Laboratory at Federal State Unitary Enterprise Central Communications Research Institute - Leningrad Department of Central Communications Research Institute; specializes in the field of creation and development of large-scale information-management systems for troop control [e-mail: eugenezozulia@ gmail.com]E. Zozulia,

Anatoly Afanasyevich Gladkikh, Ulyanovsk State Technical University, Candidate of Engineering; Professor at the Telecommunications Chair of Ulyanovsk State Technical University; graduated from the Military Communications Academy named after S. Budenny; finished his post-graduate studies at the same academy; is interested in antinoise coding, adaptive management method; author of monographs articles, patents in this subject area [e-mail: a_gladfkikh@mail.ru]A. Gladkikh

Adaptive Algorithms of Traffic Intensity Estimation in Multiservice Networks 31_1.pdf

The article presents and researches adaptive algorithms of traffic intensity estimation in multiservice networks of data transmission. The traffic is interpreted as nonsteady random process of exponential class. The proposed algorithms operate in near-real-time mode and with quality that is comparable to potentially achievable one. The algorithms can be used for research and service control of multiservice networks of data transmission.

Multiservice network, telematics network services, control automation, stochastic approximation, adaptive management, trend, estimation, random process, adaptive algorithms, traffic intensity.

2013_ 1

Sections: System analysis, data management and processing

Subjects: Automated control systems, Information systems, Operational research.


Yury Petrovich Egorov, Federal Research-and- Production Center Open Joint-Stock Company Research-and-Production Association Mars, Doctor of Engineering, Professor; graduated from the Faculty of Radioengineering of Leningrad Higher Marine College named after admiral S. Makarov; chief staff scientist at Federal Research-and- Production Center Open Joint-Stock Company Research-and-Production Association Mars; specializes in the field of macro-design of large-scale information-management systems; author of publications, monographs, inventions in the field of design of control systems [e-mail: yupe@mail.ru]Y. Egorov,

Anatoly Ivanovich Pyatakov, Federal Research-and-Production Center Open Joint-Stock Company Research-and-Production Association Mars, Candidate on Engineering; graduated from the Military Communications Academy named after S. Budenny; completed his post-graduate program at the same academy; chief specialist at Federal Research-and-Production Center Open Joint-Stock Company Research-and-Production Association Mars; specializes in the field of organization and creation of systems for transmission of discrete messages; author of publications in the field of reliability of systems for data transmission and computer-aided facilities [e-mail: uljanovsk-anatol@mail.ru]A. Pyatakov

An Approach to the Creation of an Operational System for Reliability Management At Companies in Defense Industry 29_8.pdf

The present paper is devoted to researches into approaches to automation of functions for management of computer reliability, developed and manufactured by companies in defense industries. The functions for management of product reliability are suggested to be automated by means of the creation of an operational system for reliability management, which ensures continuity and integrity of control process from development of product to its disposal. The article also discloses a model of organization for reliability management, tasks and functions of reliability management.

Product reliability, reliability management, operational system for reliability management, system structure for reliability management.

2012_ 3

Sections: Computer-aided design systems

Subjects: Automated control systems, Computer-aided engineering.


Sergey Alexanderovich Ageev, Federal State Unitary Enterprise Central Communications Research Institute - Leningrad Department of Central Communications Research Institute, Candidate of Engineering, Associate Professor; advanced doctoral student at the Military Communications Academy (Saint-Petersburg); graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; head of a scientific and technical centre of Federal State Unitary Enterprise Central Communications Research Institute - Leningrad Department of Central Communications Research Institute; specializes in the field of telecommunications-system design; author of articles, patents in the field of data-transfer systems [e-mail: serg123_61@mail.ru]S. Ageev,

Igor Borisovich Saenko, Saint-Petersburg Institute for Informatics and Automation of the Russian Academy of Sciences, Doctor of Engineering, Professor; graduated from the Military Communications Academy; completed his post-graduate and advanced doctoral programs at the same academy; Professor at Saint-Petersburg Institute for Informatics and Automation of the Russian Academy of Sciences (Saint-Petersburg); specializes in the field of creation and development of information-management systems; author of monographs, articles and patents in this field [e-mail: ibsaen@mail.ru]I. Saenko,

Yury Petrovich Egorov, Federal Research-and- Production Center Open Joint-Stock Company Research-and-Production Association Mars (Ulyanovsk), Doctor of Engineering, Professor; graduated from the Faculty of Radioengineering of Leningrad Higher Marine College named after admiral S. Makarov; chief staff scientist at Federal Research-and- Production Center Open Joint-Stock Company Research-and-Production Association Mars (Ulyanovsk); specializes in the field of macro-design of large-scale information-management systems; author of monographs, articles, patents in the field of design of computer-aided C2 systems for troop control [e-mail: yupe@mail.ru]Y. Egorov,

Anatoly Afanasyevich Gladkikh, Ulyanovsk State Technical University, Candidate of Engineering, Professor of the Chair Telecommunications at Ulyanovsk State Technical University (Ulyanovsk); graduated from the Military Communications Academy; completed his postgraduate program at the same academy; specializes in the field of synthesis of signal-code sequences, antinoise coding in telecommunications systems; author of publications and patents in this field [e-mail: a.gladfkikh@ulstu.ru]A. Gladkikh

About Development of Mathematical-model System for Control of Protected Multi-service Network 29_2.pdf

The article deals with basic approaches to development of mathematical-model system for control of protected multi-service networks. It grounds why intellectual methods for control of protected multi-service systems are required, and presents basic principles of level-sensitive mathematical modeling of operational tasks of control of protected multi-service network. The authors have suggested solutions for interaction of level models as well as coordination of efficiency factors for differentlevel models.

Protected multi-service network, telematic network services, automation of control, tmn model, mathematical model, coordination of control.

2012_ 3

Sections: Mathematical modeling, calculi of approximations and software systems

Subjects: Mathematical modeling, Automated control systems.


Mikhail Vladimirovich Bondar, Central Research Institute 24 of the Ministry of Defense of the Russian Federation, Doctor of Military Sciences, graduated from the Naval Radio-Electronics Academy named after A. Popov; acting Head of Central Research Institute 24 of the Ministry of Defense of the Russian Federation; author of papers and articles in the field of creation and use of cutting-edge information technologies in management and control, theory and practice of C2 system creation. Phone: +7 (812) 450 67 14. [e-mail: ]M. Bondar,

Yuriy Petrovich Egorov, FRPC OJSC RPA Mars, Doctor of Engineering, Professor, graduated from the Faculty of Radio-Engineering at the Leningrad Maritime Engineering Academy named after S. Makarov; chief staff scientist of FRPC OJSC RPA Mars; specializes in the field of macro-design of large-scale information-management systems; has monographs, articles, patents in the field of design of computer-aided C2 systems for troops. Phone: +7 (8422) 262 412. [e-mail: yupe@mail.ru]Y. Egorov,

Andrey Felixovich Zalmarson, Central Research Institute 24 of the Ministry of Defense of the Russian Federation, Candidate of Engineering, graduated from the Naval Radio-Electronics Academy named after A. Popov; leading staff scientist of Central Research Institute 24 of the Ministry of Defense of the Russian Federation;specializes in the field of development of territorial C2 systems for troops; author of articles and other papers in the above field. Phone: +7 (812) 450 66 91. [e-mail: ]A. Zalmarson

Creation and Improvement of C2 System for Countrys Navy 23_3.pdf

The article covers basic lines of joint researches and developments of Central Research Institute 24 of the Ministry of Defense of the Russian Federation and FRPC OJSC RPA Mars in the field of improvement of C2 systems for the Russian Navy on basis of automation of force- and weapon-control processes, informatization of authority functionalities.

Automation of control processes, informatization of military-authority functionalities, computer-aided packages, common information space.

2011_ 1

Sections: Integrated command and control systems. ships complexes and systems

Subjects: Automated control systems.


Sergey Alexanderovich Ageev, Federal State Unitary Enterprise Research-and-Production Association Signal, Candidate of Engineering, Associate Professor; doctoral student at the Military Communications Academy named after S. Budenny (Saint-Petersburg); graduated from the Faculty of Radio-Engineering at the Ulyanovsk Polytechnic Institute; Deputy Head of R&D Department of Federal State Unitary Enterprise Research-and-Production Association Signal; specializes in the field of telecommunications-system design; has articles, patents in the field of data-transfer systems. [e-mail: serg123@mail.ru]S. Ageev,

Alexander Sergeevich Bushuev, Saint-Petersburg VTB 24 branch, Lead specialist of information-security department at the Saint-Petersburg VTB 24 branch, applicant at Federal State Unitary Enterprise Rubin (Saint-Petersburg); graduated from the Saint-Petersburg State Technical University; specializes in the field of information security in computer-aided and telecommunications systems; author of publications in the above field. [e-mail: bsn@telda.ru]A. Bushuev,

Yury Petrovich Egorov, FRPC OJSC RPA Mars, Doctor of Engineering, Professor, graduated from the Faculty of Radio-Engineering at the Leningrad Maritime Engineering Academy named after S. Makarov; chief staff scientist of FRPC OJSC RPA Mars; specializes in the field of macro-design of large-scale information-management systems; has monographs, articles, patents in the field of design of computer-aided C2 systems for troops. [e-mail: yupe@mail.ru]Y. Egorov,

Igor Borisovich Saenko, Military Communications Academy named after S. Budenny, Doctor of Engineering, Professor, graduated from the Military Communications Academy named after S. Budenny; specializes in the field of creation and development of information-management systems; has monographs, articles and patents in this field. [e-mail: ibsaen@mail.ru]I. Saenko

Concept of Automation of Information-security Control in Protected Special-purpose Multi-service Networks 23_7.pdf

The article deals with conceptual basis for automation of information-security control for protected special-purpose multi-service networks. The authors discuss conceptual model of protected multi-service network control, security threats, protection tasks and mechanisms.

Computer-aided network-control system, protected multi-service network, information security, tmn model, threat model, telematics network services.

2011_ 1

Sections: Information-protection methods and systems. information security

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


Yuriy Petrovich Egorov, [e-mail: mars@mv.ru ]Y.Egorov,

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

Evaluation of Minimum Achievable Probability of Reception of Bogus Message in Computer-aided Troop-control Systems 21_7.pdf

The present article is devoted to investigation of message-processing techniques directed towards considerable decrease of risk of bogus-message reception in computer-aided troop-control systems. The article gives defined criteria for generation of a bogus message at the input of an information receiver on basis of probabilistic graph of state of data-communication system, and a comparative evaluation of probability of reception of a bogus message both in unidirectional data-communication systems with dependent and independent errors and in feedback systems. The article also shows that an important decrease of probability of reception of a bogus message in channels of poor quality is caused by decrease of transfer rate. It proposes a technique allowing evaluating a minimum achievable probability of the reception of a bogus message in the systems with given parameters of reception integrity.

Computer-aided troop-control systems, data-communication systems, reception integrity, bogus message.

2010_ 3

Sections: System analysis, data management and processing

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


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