ISSN 1991-2927
 

ACP № 1 (55) 2019

Keyword: "modeling"

Aleksandr Alekseevich Emelianov, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’, Candidate of Engineering; graduated from F.E. Dzerzhinsky Military Academy; Deputy Chief Engineer for Quality Assurance and Engineering Support - Head of the Management Department of Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’; an author of publications in the field of creation of the quality management and information security systems, statistical analysis of supplier appraisal. [e-mail: mars@mv.ru]A. Emelianov,

Iuliia Aleksandrovna Radionova, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’, Candidate of Engineering; graduated from the Faculty of Mathematics and Mechanics of Ulyanovsk State University; finished her postgraduate study at Ulyanovsk State Technical University; Lead Software Engineer at FRPC JSC ‘RPA ‘Mars’; an author of articles in the field of automated workflow systems, intelligent technical documentation storages, and statistical analysis of supplier appraisal. [e-mail: julia-owl@mail.ru]I. Radionova,

Aleksandr Leonidovich Savkin, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’, Candidate of Military Sciences, Associate Professor; graduated from Ulyanovsk Higher Military Command School of Communications, Marshal Budjonny Military Academy of Signal Corps, completed postgraduate studies in the Military Academy of Communications; Head of Science and Engineering Support Department of FRPC JSC ‘RPA ‘Mars’; an author of scientific works, textbooks, and articles in the field of development and modelling of communication control systems and statistical analysis of supplier appraisal. [e-mail: mars@mv.ru]A. Savkin

Information and Analytical Model of Product Testing for Counterfeit 52_4.pdf

The article considers a problem of counterfeit products and the existing methods for solving this problem. An information and analytical method for the optimization of an expert product evaluation is proposed, which uses a parameter set and allows to automate the final decision-making process. The set of parameters takes into account not only indicators for suppliers, but also possible consequences of using counterfeit products for different groups of consumers. The method is based on the application of a neural network using a certain base of expert knowledge. Network training is provided during analyzing process with the possibility of correction by an expert. Modeling of the analysis process with different sets of input parameters and various parameters of the neural network was carried out. The results are stored in the database; the neural network performance is evaluated based on these results. The database structure, input parameters structure and the visualization of experimental results are presented.

Counterfeit, modeling, evaluation parameter, database, software, neural network.

2018_ 2

Sections: Information systems

Subjects: Information systems.


Vladimir Kuzmich Manzhosov, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Machinebuilding of Frunze Polytechnic Institute; Professor of the Department of Theoretical and Applied Mechanics and Building Constructions at Ulyanovsk State Technical University; an author of articles, monographs, and inventions in the field of dynamics of machines, shock processes modelling. [e-mail: v.manjosov@ulstu.ru]V. Manzhosov,

Artem Iurevich Rozhkov, Ulyanovsk State Technical University, Postgraduate Student, graduated from the Faculty of Information Systems and Technologies of Ulyanovsk State Technical University; an author of articles in the field of shock processes modelling. [e-mail: tpm@ulstu.ru]A. Rozhkov

Modelling of Longitudinal Shock of the Rigid Solid Body to the Rod Interacting With the Rigid Barrier 000_4.pdf

Shock of a solid body to a rod with a tough barrier on the basis of a wave model of longitudinal shock is considered in numerous papers of domestic and foreign researchers. Various methods of the solution of the wave equation for determination of striking power and the rod stress and strain state are used. However, creation of analytical decisions represents the awkward procedure and, as a rule, it is limited to several cycles of distribution of the created deformation wave from shock section to a tough barrier and back. The procedure is complicated by the fact that the shock system is a mechanical one with unilateral constraints and, in order to analyze the dynamic process, determination of the moment of a contact gap and transition in case of this gap to other mathematical description of the system movement is required. The article considers the wave model of longitudinal shock of a solid body to a rod. The rod is represented by a set of integrated elements of small lengths taking into account wave processes in each element, transformation of waves on borders of elements interface, and unilateral constraints in shock section. Modelling results providing a possibility of the analysis of shock process, formation and distribution of deformation waves in a shock system, creations of charts of the stress and strain state of a rod system at any time point in case of shock are provided.

Longitudinal shock, shock wave model, shock to barrier, modelling, deformation waves, deformation wave transmission.

2017_ 1

Sections: Mathematical modeling

Subjects: Mathematical modeling.


Aleksandr Igorevich Ivashkin, Ulyanovsk State Technical University, Post-graduate Student; graduated from the Faculty of Machinebuilding of Ulyanovsk State Technical University; an author of articles in the field of processes modeling. [e-mail: tpm@ulstu.ru]A. Ivashkin,

Vladimir Kuzmich Manzhosov, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Machinebuilding of Frunze Polytechnical Institute; Professor of the Department of Theoretical and Applied Mechanics and Building Constructions at Ulyanovsk State Technical University; an author of articles, monographs, inventions in the field of dynamics of machines, shock processes modeling. [e-mail: v.manjosov@ulstu.ru]V. Manzhosov

Modelling of the Intense Deformed Condition of the Core of in Steps Cylindrical Form At Collision With the Rigid Barrier 000_9.pdf

The wave model of a longitudinal shock to a rigid barrier of a core in the graded cylindrical form is considered. The model of a core is presented by a set of the interfaced elements of a small length taking into account wave processes in each element, transformation of waves on borders of interface of elements, and unretentive communication in a shock section. The authors present the results of the modeling providing visualization of a shock. It reproduces the process of formation and distribution of waves of deformations changing in time in a shock system, charts of the intense deformed condition of a core system in any time point in the course of a shock on a monitor screen.

Longitudinal shock, shock wave model, shock to a barrier, modeling, waves of deformations, distribution of waves of deformations.

2016_ 1

Sections: Mathematical modeling

Subjects: Mathematical modeling.


Aleksei Aleksandrovich Dozorov , Federal Research-and-Production Center Open Joint-Stock Company ‘Research-and-Production Association ‘Mars’, Post-graduate student; graduated from the Faculty of Machine-Building of Ulyanovsk State Technical University; Deputy Chief of Production Manager Service at Federal Research-and-Production Center Open Joint-Stock Company ‘Research-and-Production Association ‘Mars’; an author of articles in the field of modeling of processes of shock mechanism motion. [e-mail: a.dozorov@bk.ru]A. Dozorov,

Vladimir Kuzmich Manzhosov, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Machine-Building of Frunze Polytechnic Institute; Head of the Theoretical and Applied Mechanics Department at Ulyanovsk State Technical University; an author of articles, monographs and inventions in the field of dynamics of machines, modeling of shock processes. [e-mail: v.manjosov@ulstu.ru]V. Manzhosov

Motion Modes of Shock System for Fluctuating Force Linear Function With Changing Characteristics 36_6.pdf

Multiple technological processes are often related to using shock systems for performing of cyclic shocks on the object. Research of such systems’ dynamics, stability of motion, shock activity level requires examination of shock processes in systems with different structures. At the same time, a number of problems, confining an area of application of shock systems, arise. They are the following: finding of solutions by exact methods; taking into account complimentary non-liner factors; analysis of transient processes; detection of limit cycles of motion. These problems can be solved by means of developing the effective dynamic system simulation procedures based on the adequate mathematical models, process visualization, and representation and good processing of simulation results. The paper [1] provides an examination of the model of shock system, as well as the definition of its parameters, ensuring a required low of motion. However, a considered piecewise constant force impact may be applied to an ideal situation that is difficult to implement with a real system. Thus, it is required to know how the change of force impact would effect the mode of striker’s motion. The present paper deals with a model for shock system at force impact as linearly increasing and linearly decreasing function when force impulse, duration and period of the force impact are constant as at the piecewise constant function. A mathematical model for the shock mass motion under condition of collision with rigid barriers is given. The modeling of shock system motion at the force-impact piecewise constant, linearly increasing and linearly decreasing function is implemented. The comparative analysis of presented simulation results is performed. The motion mode of shock system at linearly increasing and linearly decreasing functions has been changed against the mode at the force-impact piecewise constant function (although the force impulse was constant in both cases). Following the results of implemented work, it may be deduced that the changing the force linear function characteristics, when impulse and duration of force, and part of cycles are constant at an appropriate system-parameter option, does not misrepresent the cyclic mode of shock mass motion if the process would be estimated at such criteria as velocity of shock to the right barrier, implementing of one impact per a cycle at the maximal velocity, and a cyclic behavior of impact.

Shock system, motion modes of shock system, limit cycles of motion, modeling, cyclic mode of motion.

2014_ 2

Sections: Mathematical modeling

Subjects: Mathematical modeling.


Sergey Konstantinovich Kiselev, Ulyanovsk State Technical University, Doctor of Engineering, Head of IT Department at Ulyanovsk State Technical University, Professor at the Department of Measuring Computer Systems; graduated from Ulyanovsk Polytechnic Institute with a specialty in Aircraft Instruments Engineering; research interests include development of methods, models, algorithms, equipment for automation, diagnostics, testing aircraft instruments and systems, R & D organization; an author of monographs, a large number of papers and patents in the field of instrumentation. [e-mail: ksk@ulstu.ru]S. Kiselev,

Renat Nailevich Khisamov, Ulyanovsk State Technical University, Post-Graduate Student at Ulyanovsk State Technical University; graduated with a specialist's degree in Instruments Engineering, an engineer of Dynamics CSTY; research interests include automation of diagnosis and testing of aircraft equipment, methods of providing information. [e-mail: rens89@mail.ru]R. Khisamov

Formalization and Mathematical Modeling of the Avionics Systems Requirements for Automation of Test Design 35_12.pdf

The article deals with the automation of test design for avionics systems. The automation of test design is proposed to be made on the basis of formalization and modeling of the requirements for them. The design process accelerates when using off-the-shelf modules in the product, but their use imposes more stringent requirements for the product requirement design and management, which are the basis for the product planning, management, acceptance testing, and adjusting. Based on the classical V-model for product definition within complex projects, the paper shows that the requirements are closely related to testing, which is directed at defects identifying and avoidance in the system, at this, the defect is regarded as a deviation from the requirements. The article gives an example for formalization and modeling of the requirements for aerobatic display frame information in an integrated system of electronic display and alarm. Based on the resulting model and the formal submission of the requirements the structure of the final test for the system is compiled. The proposed approach allows us to reduce time for testing and debugging the system, improve its quality in the sense of greater compliance.

Modeling, system requirements, testing, formalization, program of operation.

2014_ 1

Sections: Information systems

Subjects: Information systems, Computer-aided engineering, Architecture of ship's system.


Konstantin Konstantinovich Vasiliev, Ulyanovsk State Technical University, Doctor of Engineering, Professor; Honoured Worker in the science and engineering of the Russian Federation; a correspondent member of Tatarstan Academy of Sciences; graduated from the Faculty of Radioengineering at Leningrad Institute of Electrical Engineering named after V. Ulyanov; completed his post-graduate studies at the same Leningrad Institute; a head of the Department of Telecommunications at Ulyanovsk State Technical University; author of monographs, textbooks, and articles in the field of statistic synthesis and analysis of information systems. [e-mail: vkk@ulstu.ru]K. Vasiliev,

Dmitrii Aleksandrovich Gurman, Ulyanovsk State Technical University, Post-graduate Student at the Department of Telecommunications at Ulyanovsk State Technical University, graduated from the Faculty of Radioengineering of Ulyanovsk State Technical University; author of articles in the field of control of maritime mobile objects. [e-mail: dgurman@mail.ru]D. Gurman

Modelling of Navigation and Control Algorithms for Autonomous Unmanned Underwater Vehicle 33_4.pdf

The article deals with mathematical models of autonomous unmanned underwater vehicle (AUUV) movement in a base three-dimensional coordinate system, and also with algorithms of the optimal control and AUUV movement parameters estimation. An accuracy research of the estimation algorithms for AUUV location is undertaken. An analysis of the algorithm efficiency for the AUUV optimal control in the base 3-D coordinates is submitted.

Modelling, optimal control, optimal estimation, autonomous unmanned underwater vehicle (auuv).

2013_ 3

Sections: Mathematical modeling, calculi of approximations and software systems

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


Vladislav Nikolaevich Kovalnogov, Ulyanovsk State Technical University, Doctor of Engineering; holds the Chair 'Heat and Power Engineering' at Ulyanovsk State Technical University; author of articles, monographs, inventions in the field of numerical modeling of hydrogasodynamic processes [e-mail: kvn@ulstu.ru]V. Kovalnogov,

Alexey Vladimirovich Korolev, Ulyanovsk State Technical University, post-graduate student at the Chair 'Heat and Power Engineering' of Ulyanovsk State Technical University; author of articles and inventions in the field of numerical modeling of hydrogasodynamic processes [e-mail: korolev86@inbox.ru]A. Korolev,

Ruslan Vladimirovich Fedorov, Ulyanovsk State Technical University, Candidate of Engineering; Associate Professor at the Chair 'Heat and Power Engineering' of Ulyanovsk State Technical University; author of articles and inventions in the field of numerical modeling of hydrogasodynamic processes [e-mail: r.fedorov@ulstu.ru]R. Fedorov

Mathematical Modeling and Numerical Analysis of Efficiency of Surface Film Coolingin Supersonic Flow Dispersion 30_4.pdf

The article provides a mathematical model and results of computational investigations into the effect of the inertial deposition of particles of condensed phase on the efficiency of film cooling of surface in supersonic flow dispersion. The authors determine a possible realization of Leontyev paradox in adiabatic surface area, which consists in achieving protected surface temperature less than that of cooler in permeable area of protection creation.

Boundary layer, thermal protection, mist flow, modeling.

2012_ 4

Sections: Mathematical modeling, calculi of approximations and software systems

Subjects: Mathematical modeling.


Vladimir Kuzmich Manzhosov, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Machine-Building of Frunze Polytechnic Institute; holds the Chair Theoretical and Applied Mechanics at Ulyanovsk State Technical University; author of articles and monographs in the field of dynamics of machines, modeling of shock processes [e-mail: tpm@ulstu.ru]V. Manzhosov,

Alexander Ivanovich Sachenko, Ulyanovsk State Technical University, [e-mail: alex2002m@yandex.ru]A. Sachenko,

Vitaly Vladimirovich Slepukhin, Ulyanovsk State Technical University, Candidate of Engineering, graduated from the Faculty of Power of Ulyanovsk State Technical University; senior lecturer at the Chair Theoretical and Applied Mechanics of Ulyanovsk State Technical University; author of articles in the field of modeling of wave processes in rod systems when exposed to longitudinal shocks [e-mail: tpm@ulstu.ru]V. Slepukhin

Modeling of Wave Processes At Acceleration of Homogeneous Rod 30_6.pdf

The article deals with a performed mathematical modeling of rod acceleration process based on wave model, and presents results of wave process modeling if the face end is exposed to constant pressure. The authors determined acceleration time required for align speeds of rod cross-sections.

Modeling, rod, wave processes in rod, rod acceleration, deformation wave, rate of cross-sections, shock.

2012_ 4

Sections: Mathematical modeling, calculi of approximations and software systems

Subjects: Mathematical modeling.


Alexey Alexanderovich Dozorov, Federal Research-and-Production Center Open Joint-Stock Company Research-and-Production Association Mars, post-graduate student; graduated from the Faculty of Machine-Building of Ulyanovsk State Technical University; chief specialist at Federal Research-and-Production Center Open Joint-Stock Company Research-and-Production Association Mars; author of articles in the field of modeling of processes of shock mechanism motion [e-mail: a.dozorov@bk.ru]A. Dozorov,

Vladimir Kuzmich Manzhosov, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Machine-Building of Frunze Polytechnic Institute; holds the Chair Theoretical and Applied Mechanics at Ulyanovsk State Technical University; author of articles, monographs and inventions in the field of dynamics of machines, modeling of shock processes [e-mail: v.manjosov@ulstu.ru]V. Manzhosov

Modeling of Transient Processes of Shock System Motion At Periodic Pulsing Force and When Collision With Rigid Barriers 30_8.pdf

The article deals with a model for the motion of a shock system at periodic pulsing force and collisions with rigid barriers. It also presents results of the system motion modeling.

Shock system, modes of shock system motion, limit cycles of motion, modeling, stability of motion.

2012_ 4

Sections: Mathematical modeling, calculi of approximations and software systems

Subjects: Mathematical modeling.


Valery Vladimirovich Kozhevnikov, Ulyanovsk State University, Candidate of Engineering; graduated from Pushkin Higher Radioelectronics Command School; Associate Professor at the Chair Telecommunication Technology and Networks of Ulyanovsk State University; author of publications in theory of design of microelectronic systems [e-mail: vvk2861955@mail.ru]V. Kozhevnikov

Method of Mathematical Modeling of Logic Circuitsof Digital Automata 30_14.pdf

The method is based on the presentation of digital automata in the form of Petri-net state equations of Murata equation class. The paper shows a logical aspect in mathematical modeling of digital automata. The suggested method provides possible analytical and simulation modeling of logic circuits for digital automata. Modeling of logic circuits of digital automata comes down to solving Petri-net state equations.

Method, modeling, digital automata, logic circuit, petri net, state equations.

2012_ 4

Sections: Software and mathematical support of computers, computer systems and networks

Subjects: Mathematical modeling, Automated control systems, Computer-aided engineering.


Nikolay Alexeevich Dolbnya, Ulyanovsk Instrument Manufacturing Design Bureau, post-graduate student; graduated from the Faculty of Mechanics and Mathematics of Lomonosov Moscow State University; head of a project design team at PJSC Ulyanovsk Instrument Manufacturing Design Bureau; author of publications in the field of computer-aided design of onboard information systems [e-mail: dolbnya_na@ukbp.ru]N. Dolbnya,

Kirill Valentinovich Larin, PJSC Ulyanovsk Instrument Manufacturing Design Bureau, Candidate of Engineering; graduated from the Faculty of Engineering and Physics of Leningrad Institute of Fine Mechanics and Optics; chief designer at PJSC Ulyanovsk Instrument Manufacturing Design Bureau; author of publications in the field of computer-aided design of onboard information systems [e-mail: lucky@ukbp.ru]K. Larin,

Vadim Viktorinovich Shishkin, Ulyanovsk State Technical University, Candidate of Engineering; graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; Professor of the Chair Measuring and Computing Complexes at Ulyanovsk State Technical University; author of articles in the field of the development of CAD, intellectual systems, real-time operating systems and embedded systems [e-mail: shvv@ulstu.ru]V. Shishkin

A Method for Creation of Virtual Equipment for Aviation Onboard Information-management System 29_5.pdf

The article describes a method for the creation of virtual equipment for aircraft onboard information-management system (the System). The virtual equipment is implemented as a client-server application in a local area network. It enables the debugging of operational software for the System without onboard computer. In this case the physical layer of the system communication channels is replaced by the TCP transport layer. The method also enables the development and debugging of the System diagnostics. This approach reduces substantially time for the System development due to multisequencing of processes of the development of the System hardware, software and diagnostics.

Onboard information-management system, software debugging, virtual equipment, modeling.

2012_ 3

Sections: Mathematical modeling, calculi of approximations and software systems

Subjects: Automated control systems, Computer-aided engineering.


Vladimir Vasilyevich Sukhov, A Way of Modeling of Strength and Vibration-protection Systemsfor Radio Devices Vladimir Vasilyevich Sukhov, Joint Stock-Company Concern 'Morinformsystem-Agat' (Moscow), Candidate of Engineering, graduated from the Faculty of Mechanical Engineering of Bauman Moscow State Technical University in the profession 'Radiomechanical Devices'; leading staff scientist; author of articles, holds patents in the field of trials and calculations of dynamics and strength of radio equipment, system of vibration isolation, vibroacoustic and noise characteristics, thermal conditions [e-mail: vsuhov51@yandex.ru]V. Sukhov

A Way of Modeling of Strength and Vibration-protection Systemsfor Radio Devices 27_4.pdf

Optimization of vibroprotection systems for radio devices is an essential element for increase of reliability and strength. Under permanent increase in prices of similar equipment, modeling of its mechanical strength at all the design stages lets ensure compliance with reliability requirements and replace mechanical trials of devices with modeling.

Radio equipment, vibroprotection, device design, modeling, strength, stability.

2012_ 1

Sections: Mathematical modeling, calculi of approximationsandsoftware systems

Subjects: Mathematical modeling, Electrical engineering and electronics.


Vladimir Kuzmich Manzhosov, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Machine-Building at Frunze Polytechnical Institute; holds the Chair Theoretical and Applied Mechanics at Ulyanovsk State Technical University; author of articles, monographs, inventions in the field of dynamics of machines and mechanisms, modeling of shock processes. [e-mail: v.manjosov@ulstu.ru]V. Manzhosov,

Dmitry Alexanderovich Novikov, Ulyanovsk State Technical University, graduated from the Faculty of Information Systems and Technologies of Ulyanovsk State Technical University; assistant lecturer at the Chair Theoretical and Applied Mechanics of Ulyanovsk State Technical University; author of articles in the field of analysis and synthesis of mechanisms, modeling of shockmechanism motion processes. [e-mail: nia@ulstu.ru]D. Novikov

Limit Cycles of Motion of a Shock System in Case of Relay-type Force and Shock Action At the Moment of Force Switching 25_2.pdf

The article deals with a model for the motion of a shock system with periodic force of relay type and a shock at the moment of the force switching. It also presents the calculation of shock-system parameters and the results of the system-motion modeling.

Shock system, motion modes for shock system, limit cycles of motion, modeling, stability of motion.

2011_ 3

Sections: Mathematical modeling, calculi of approximations and software systems

Subjects: Mathematical modeling.


Aleksey Valeryevich Mattis, FRPC OJSC RPA Mars, Candidate of Engineering, graduated from the Faculty of Machine-Building at the Ulyanovsk State Technical University in the profession Technology, Equipment and Automation of Machine-Building Productions; deputy chief designer of FRPC OJSC RPA Mars; author of papers in the field of modeling and development of C2 systems. [e-mail: mars@mv.ru]A. Mattis

Optimal Control of Maritime Mobile-system Movement 23_13.pdf

The article synthesizes algorithms of optimal control and evaluation of maritime-system movement parameters, which consists of a surface vessel and an under-water vehicle. It also cites the results of modeling of the system movement using computers.

Modeling, optimal control, system of automatic movement-control, coordinated movement-control, vessel, underwater vehicle.

2011_ 1

Sections: Mathematical modeling, calculi of approximations and software systems

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


Aleksey Valeryevich Mattis, [e-mail: mars@mv.ru ]A. Mattis

Mathematical Modeling of Algorithms for Evaluation of Movement Parameters of a Sea-going Mobile Complex 21_3.pdf

The article gives a comparative study of algorithms of joint and separate evaluation of parameters and control of movement of a sea-going mobile complex when it goes as per a given straight trajectory. It also gives the results of the computational modeling using computers.

Modeling, optimal control, automatic movement-control system, joint control of movement, vessel, underwater vehicle.

2010_ 3

Sections: Mathematical modeling, calculi of approximation and software systems

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


Konstantin Konstantinovich Vasiliev, [e-mail: mars@mv.ru]K. Vasilyev,

Aleksey Valeryevich Mattis, [e-mail: mars@mv.ru] A. Mattis

Modeling and Optimization of Movement -control Systems for Sea-based Mobile Systems 20_2.pdf

The article provides with information on synthesis and analysis of algorithms for optimal control and evaluation of the movement parameters of a sea-based mobile system when it moves as per a given trajectory within reference coordinate system. It also gives the results of numerical simulation using computers.

Modeling, optimal control, system of automatic movement control, coordinated movement control, vessel, underwater vehicle.

2010_ 2

Sections: Modeling for design and control tasks

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


Konstantin Konstantinovich Vasiliev, [e-mail: mars@mv.ru] K. Vasiliev,

[e-mail: mars@mv.ru]Nikolai Vladimirovich Luchkov, N. Luchkov

Modeling of Algorithm of Extended Signal Location in Polyzonal Images 18_13.pdf

The article deals with an algorithm of extended signal location on the background of polyzonal image at given values of probable false alarm and probable correct location.

Modeling, location, filtering, random field, polyzonal image.

2009_ 4

Sections: Modeling for tasks of design and control

Subjects: Computer-aided engineering, Artificial intelligence, Architecture of ship's system.


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