ISSN 1991-2927
 

ACP № 3 (57) 2019

Keyword: "automation"

Viacheslav Viktorovich Epifanov, Ulyanovsk State Technical University, Doctor of Science in Engineering; graduated from the Machine-Building Faculty of Ulyanovsk Polytechnic Institute; Professor at the Department of Motorcars of Ulyanovsk State Technical University; an author of monographs, articles, inventions in the field of the automation of preproduction engineering. [e-mail: v.epifanov73@mail.ru]V. Epifanov,

Aleksandr Nikolaevich Afanasev, Ulyanovsk State Technical University, Doctor of Science in Engineering; Professor graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; First Vice Rector, Vice Rector for Remote and Additional Education of Ulyanovsk State Technical University; an author of more than 200 articles in the field of CAD. Research interests are automated training systems, organization of computing processes and structures of computers, design of intelligent systems, CAD, management of complex workflows, diagrammatica of graphic languages. [e-mail: a.afanasev@ulstu.ru]A. Afanasev

Automated System for the Selection of Quality Process Equipment in Serial Production 54_3.pdf

The reasonable selection of process equipment can provide increasing of preproduction engineering efficiency of processes and manufacturing system in the conditions of multiproduct serial manufacturing. Therefore, the article deals with a theoretical foundation of the complexity of components as solids of revolution. It is cost-effective to use manual or computer-controlled metal-cutting machines while manufacturing.The article provides an algorithm and a functional block diagram for the automated system for the process equipment selection (the System). It includes four subsystems: a component coding, a component characteristic correlation, a design selection, a technical documentation output.At industrial enterprises, the System allows to improve significantly the production engineer`s performance while preproduction engineering, the quality of design decisions they take, and the efficiency of the production system.

Machine unit, component, coding, classification, automation, system.

2018_ 4

Sections: Information systems

Subjects: Information systems.



Viacheslav Viktorovich Epifanov, Ulyanovsk State Technical University, Doctor of Engineering; graduated from the Faculty of Machine-Building of Ulyanovsk Polytechnic Institute; Professor at the Department of Motorcars of Ulyanovsk State Technical University; an author of monographs, articles, and inventions in the field of process planning automation. [e-mail: v.epifanov73@mail.ru]V. Epifanov,

Aleksandr Nikolaevich Afanasev, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Radioengineering at Ulyanovsk Polytechnic Institute; First Vice-Rector for Distance and Extended Education at Ulyanovsk State Technical University; an author of more than 200 articles in the field of CAD, interested in automated training systems, computational process and computer structure organization, intelligent system design, CAD, composite workflow control, graphic language diagrammatics. [e-mail: a.afanasev@ulstu.ru]A. Afanasev

The Automated System of Coding and Classification of Production Objects 000_7.pdf

Increasing efficiency of design and technological training in conditions of multi-nomenclature serial production can be ensured by coding and classification of parts. Therefore, the paper provides theoretical substantiation of classification characteristics of parts and their grouping. A method for coding details is proposed, in accordance with which details are assigned an impersonal code of its design characteristics according to the United Design Documentation System (SUDD) classifier. Technological characteristics of the parts are coded in true values from the drawing. In practice, the technique was implemented when creating a regional data bank about details that contains information on 150 thousand items. The article shows the functional-structural scheme of the automated system for coding and classification (ASCC) of parts, consisting of four subsystems: coding of parts, generalization of parts characteristics, selection of design solutions, output of technical documentation. At industrial enterprises, ASCC allows to significantly increase the labor productivity of designers and technologists in the preparation of production and the quality of the design decisions they make.

Part, coding, classification, automation, system.

2017_ 3

Sections: Information systems

Subjects: Information systems, Computer-aided engineering.


Denis Aleksandrovich Evsevichev, Marshal Bugaev Ulyanovsk Civil Aviation Institute, Candidate of Engineering; graduated from the Faculty of Radioengineering of Ulyanovsk State Technical University; Associate Professor at the Department of Air Traffic Control and Navigation of Marshal Bugaev Ulyanovsk Civil Aviation Institute; an author of articles in the field of automated design and optoelectronics. [e-mail: denistk_87@mail.ru]D. Evsevichev,

Mikhail Konstantinovich Samokhvalov, Ulyanovsk State Technical University, Doctor of Physics and Mathematics, Professor; graduated from the Faculty of Physics of Saratov Chernyshevsky State University; Head of the Department of Electronic Instrumentation Design and Technology at Ulyanovsk State Technical University; an author of articles in the field of optoelectronics. [e-mail: sam@ulstu.ru]M. Samokhvalov

Automated Calculation of Ergonomic Parameters of the Information Display Means At the Workplace of the Air Traffic Controller 000_10.pdf

One of the most important elements of a workplace of an air traffic controller of air traffic services are means of displaying information ensuring the functioning of the man-machine mode in accordance with the system standards of ergonomic requirements and ergonomic assurance. The analysis and comparison of parameters of information displays for the workplace of the air traffic controller was held in the article from the point of view of manufacturability, ergonomics and safety. The thin-film electroluminescent displays are preferred to use taking into account the implementation of regulatory requirements. In the framework of the ergonomic design, the software for calculation of brightness parameters of indicators and the distance location of the screen relative to the operator: minimum and maximum values of optimum and maximum permissible distances of observation was developed. The software module was written in Object Pascal in the Delphi 7 environment. The presented software product provides automation of calculations of the ergonomic characteristics necessary in design of the working environment and workstation of an air traffic controller, and can also be used for other workstations.

Automation, displays, ergonomics, air traffic controller.

2017_ 3

Sections: Information systems

Subjects: Information systems.


Aleksandr Fedorovich Pokhilko, Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor; graduated from Kalinin Polytechnic Institute; Professor at the Department of Applied Mathematics and Informatics of Ulyanovsk State Technical University; an author of articles in the field of design solution making and integrated processes of CAD-systems. [e-mail: afp@ulstu.ru]A. Pokhilko,

Denis Eduardovich Tcygankov, Ulyanovsk State Technical University, Postgraduate Student at the Department of Applied Mathematics and Informatics of Ulyanovsk State Technical University; graduated from the Faculty of Radioengineering of UlSTU; an author of articles in the field of system analysis and design process automation. [e-mail: d.tsyg@mail.ru]D. Tcygankov,

Ivan Vladimirovich Gorbachev, Ulyanovsk State Technical University, Candidate of Engineering; graduated from the Faculty of Radioengineering of Ulyanovsk State Technical University; Associate Professor at the Department of Radioengineering of UlSTU; an author of articles in the field of design process description, formalization and automation. [e-mail: giv.uln@gmail.com]I. Gorbachev

Structural and Logical Design Solution Class Generalization With the Use of Design Procedures Representation Adapted Functionally 000_9.pdf

Design of modern products relating to different subject areas and consisting of a large number of components differs by the presence of the technical requirements to the entire product without separate requirements to its components. The design activity results include complete design documentation and product assembly 3D-model. The process of assembly 3D-model formation includes adding 3D-models of components and establishing conjugations between them. In order to construct, correct, and maintain (update or modify) a 3D-assembly, rebuilding should be provided. Typically, the process is carried out through manually handling of parts parameters and conjugations. That requires additional time and labor expenses. The authors propose the solution of the problem in establishing the structural and logical relationships between the components of the assembly 3D-model on the attribute level allowing to link the components and structural objects. Interrelations between the components allow not only to determine their location and link to each other operating with design parameter values but also to modify the design solution without violating its integrity that is not ensured by any modern cAD-system.

Cad-система, cax, cad, automation, cax, design solution, design activity, functional, process, information image, design procedure, functional adaptation, formal description, assembly model.

2016_ 3

Sections: Computer-aided engineering

Subjects: Computer-aided engineering.


Mikhail Seregeevich Ermakov, Federal Research and Production Center Joint Stock Company ‘RPA ‘Mars’, Candidate of Physics and Mathematics; graduated from the Faculty of Physics and High Technology Engineering of Ulyanovsk State University; Engineer at Federal Research and Production Center Joint Stock Company ‘RPA ‘Mars’; specializes in the field of creation and development of automated measuring systems, analysis and processing of measurements; an author of articles and publications in the field of semiconductor devices analysis. [e-mail: ermakov@pisem.net]M. Ermakov,

Vladimir Ivanovich Pavlov, Federal Research-and-Production Center Joint Stock Company ‘RPA ‘Mars’, graduated from the Faculty of Calculus Mathematics and Cybernetics of Lobachevski State University; Deputy Head of the Bench Technological Сomplex of Federal Research-and-Production Center Joint Stock Company ‘RPA ‘Mars’; specializes in the field of justification of creation and development of ship's automated systems for civilian use; an author of articles and papers in the subject area. [e-mail: mars@mv.ru]V. Pavlov

Developing Algoritm of Interaction Between the System for Cargo Condition Monitoring and the System of Cargo Hold Drainage for Prevention of Cargo Liquefying 000_6.pdf

One of the reasons of fleet averages is the inadequate or even missing control system for cargo and gas air environment monitoring in cargo spaces of different-classes ships during the voyage. The main factors to ensure the safety of goods during carriage by sea are heat and humidity transportation regime and ventilation one. The algorithm of interaction between the system for cargo condition monitoring and the system of cargo hold drainage for prevention of cargo liquefying is considered in the article. The variants of systems interfacing are also analyzed. The developed algorithm of integration and analyzed variants of interfacing of these systems allow constructing the control and monitoring system of cargo state in the hold of bulk dry-cargo ship. The exploit of the integrated system should improve the control of cargo condition by the crew and give the opportunity to control and maintain necessary dry and humidity characteristics of hold air and gas environment. It should enhance safety carriage of bulk cargo on dry-cargo ships.

Carriage by sea, monitoring system, system of hold drainage, automation.

2015_ 4

Sections: Information systems

Subjects: Information systems, Automated control systems.


Andrei Feliksovich Zalmarson, Scientist at Research Centre of Strategic-Tactical Justification Scientific Associate of the Research Institute of the Navy Development and Strategic Issues of Military Educational-and-Research Centre "Naval Academy", graduated from the Faculty of Radiocommunication of Higher Naval Academy of Radioelectronics named after A. S. Popov, Higher Officer School, Naval Academy named after N. G. Kuznetcov; Candidate of Military Sciences, Senior Staff Scientist at Research Centre of Strategic-Tactical Justification Scientific Associate of the Research Institute of the Navy Development and Strategic Issues of Military Educational-and-Research Centre "Naval Academy"; specializes in justification of creation and development of military-oriented automated systems; an author of articles and papers in the subject area. [e-mail: zalmar@mail.ru]A. Zalmarson,

Artur Zhanovich Yudin, Scientific Associate of the Research Institute of the Navy Development and Strategic Issues of Military Educational-and-Research Centre "Naval Academy", graduated from the Faculty of C2 systems of Higher Naval Academy of Radioelectronics named after A. S. Popov, Naval Academy named after N. G Kuznetcov. Head of Scientific Associate of the Research Institute of the Navy Development and Strategic Issues of Military Educational-and-Research Centre "Naval Academy"; specializes in justification of creation and development of automated nautical systems and automation of command and control tactical level; an author of articles and papers in the subject area. [e-mail: rts605@rambler.ru]A. Yudin

A Comprehensive Approach to the Assessment of the Effectiveness of Software-hardware Complex of the Naval Authorities Functional Activity Automation 000_1.pdf

The Management Centre of the Main Headquarters of the Russian Navy, opened in St. Petersburg, allows continuous monitoring of the situation in the World Ocean. It is a new essential element of the National Centre for Defense Management of the Russian Federation. The Centre consists of the five departments; the Combat Control Department and Constant Activity Management Department are the main ones; they will be monitoring and analyzing the situation. The equipment of the Centre (the software-hardware complex) allows to perform complex calculations and simulations within the shortest possible time. It also allows the Main HQ of the Russian Federation Navy to ensure management effectively in a qualitative manner. The article discusses the approach to assessment of the effectiveness of the hardware-software complex of naval authorities functional activity automation at all stages of the life cycle. The approach also allows researching the influence of the complex functioning quality on the engagement efficiency and the solution of various control tasks of the Navy.

Automation, criteria, properties, system, software-hardware complex, indicator, efficiency.

2015_ 3

Sections: Automated control systems

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


Denis Eduardovich Tsygankov, Ulyanovsk State Technical University, Post-Graduate Student at the Department of Applied Mathematics and Informatics of Ulyanovsk State Technical University; graduated from the Faculty of Radioengineering at Ulyanovsk State Technical University; an author of articles in the field of system analysis and design process automation. [e-mail: d.tsyg@mail.ru]D. Tsygankov,

Aleksandr Fedorovich Pokhilko, Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor; graduated from Leningrad Polytechnic Institute named after M.I. Kalinin; Professor at the Department of Applied Mathematics and Informatics at Ulyanovsk State Technical University; an author of articles in the field of decision-making and integrated processes of CAD-systems [e-mail: afp@ulstu.ru]A. Pokhilko

Representing Design Process By Generalizing Elementary Operations to Semantic Unit Level 000_11.pdf

The design process can be represented by the system of project procedures described in the IDEFx methodology. That allows to decompose it into design stages. Design stage is a sequence of design solution formation actions. Such sequence consists of project operations or procedures and has completeness in terms of getting an object or its fragment with real semantic content (physical meaning). Each stage is strictly defined in terms of either its execution order or the input and output data that makes it impossible to change them and preserve the overall structure correctness of the design solution formation. The authors research the model of project activity processes representation with the use of the introduced concept of the design stage as a semantic unit and Open CASCADE Technology. The researches examine a lot of design conditions and limitations. On the basis of such conditions and limitations, with the use of Open CASCADE Libraries, the system of project procedures was developed. The software implementation of these procedures can provide the modifiability of project stages. Therefore, the representation of design process allows to accumulate, generalize and modify the process of design solution formation preserving the completeness of both the process and design solution.

Open cascade technology, automation, design stage, process, design activity, model, semantics, design procedure, open cascade technology, solution.

2015_ 3

Sections: Computer-aided engineering

Subjects: Computer-aided engineering, Automated control systems.


Oksana Vadimovna Maksimova, Ulyanovsk State Technical University, Associate Professor at the Department of Electronic Instrumentation Design and Technology of Ulyanovsk State Technical University; an author of articles and monographs in the field of optoelectronic and microwave engineering. [e-mail: first32007@yandex.ru]O. Maksimova,

Sergei Vladimirovich Moiseenko, Peoples’ Friendship University, graduated from Peoples’ Friendship University of Russia; a post-graduate student at the Department of Cybernetics and Mechatronics of Peoples’ Friendship University of Russia; an author of articles in the field of liquid-crystal characteristics measurement . [e-mail: cormorant.xiii@gmail.com]S. Moiseenko,

Sergei Mikhailovich Maksimov, Ulyanovsk State Technical University, graduated from Ulyanovsk State Technical University with the specialty in Design and Technology of Electronic Instrumentation; a post-graduate student at the Department of Design and Technology of Electronic Instrumentation of Ulyanovsk State Technical University; an author of articles in the field of optoelectronics. [e-mail: maximovsm@yandex.ru]S. Maksimov

Measurement Process of Automation of Nanostructured Indicators Lightning Characteristics 39_14.pdf

It is now impossible to imagine an electronic device without the ergonomic display. For the development of modern and advanced display products need to constantly explore new materials and construction of indicators, as well as their parameters. The study of such structures is a complex task and requires significant research and development work. Therefore, the development of automated methods for measuring the parameters of the displays is an important task as it allows to accelerate the search for new materials and structures with the optimal settings. Employees of Ulyanovsk State Technical University together with scientists from the Russian Peoples' Friendship University were investigated methods of measuring devices basic parameters of liquid crystal structures and thin-film electroluminescent emitters. The joint work began forming ideas of conceptual approaches to the development of automated systems for measuring parameters of nanostructured lighting indicator elements.

Thin-film indicator, brightness, luminous efficiency, liquid crystals, automation, formalization, measurements, electroluminescence.

2015_ 1

Sections: Computer-aided engineering

Subjects: Computer-aided engineering.


Olga Vadimovna Tikhonova, Moscow State Technical University of Radioengineering, Electronics and Automatics, Doctor of Engineering; Professor at the Chair of Receivers of Moscow State Technical University of Radioengineering, Electronics and Automatics; graduated from the Faculty of Mechanics and Mathematics of Lomonosov Moscow State University; the latest publications are about design of ship's control systems and mathematical modeling of ship's radio systems [e-mail: o_tikhonova@inbox.ru]O. Tikhonova

Organization of Joint Work of Ship's Radio Facilities for Situation Surveillance 30_3.pdf

The article deals with a way of automating works concerning consistency of output data of radio facilities for surveillance of external situation of surface ship. The confirmation of accuracy characteristics for each facility and accounting (by algorithm or by hardware) of errors of their mutual adjustment increase the probability of the correct definition of both number of air attack facilities and their motion parameters if interconnected information use. It contributes to more efficient measures against massive attack for air defense systems of surface ships.

Radio engineering system, facilities for surveillance of external situation, ship's air defense, mutual adjustment, automation.

2012_ 4

Sections: Integrated command and control systems. ship’s complexes and systems

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


Anatoly Alexanderovich Kupriyanov, FRPC OJSC RPA Mars, Candidate of Engineering, Associate Professor, graduated from the Faculty of RadioEngineering at the Ulyanovsk Polytechnic Institute; leading staff scientist of FRPC OJSC RPA Mars; interested in the field of methodology of creation and building of distributed computer systems; author of papers and articles in design and development of local and corporate networks, computer-aided packages, and special- and general-purpose computer-aided control systems. [e-mail: aakupr1828@rambler.ru]A. Kupriyanov

Comprehensive Automation of Processes of Force, Weapon and Facility Control 23_5.pdf

The article deals with tendencies, requirements and problems of comprehensive automation of control processes for different-type and heterogeneous groups and formations of forces (troops), weapons and facilities during combat actions (operations). The nature of requirements and problems is defined by the development of systems of weapons, armament and defense technology, and new forms and ways of combat actions and demonstration of military power to solve assigned tasks, as well as by the required implementation of new computer aids, communications and data exchange, information and intellectual technologies to automate control and processing of data for C2 staff of authorities and combat crews.

Automation, interaction, high-precision weapon, intellectualization, informatization, information processing, network-centric warfare, control.

2011_ 1

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

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


Aleksandr Fedorovich Pokhilko, [e-mail: mars@mv.ru ]A. Pokhilko

Formal System of Fixation and Generalization of Design-activity Processes 22_9.pdf

The article states the basic of formal system which is the base for the implementation of efficient methods of fixation, generalization and reuse of information received by working groups in processes of work on projects of different domains of application. The formal system consists of three formal theories describing the presentation of design-process samples, design-process classes and a mechanism generating description of design-process classes in information environment.

Integrated environment, design activity, design solution, control, process, automation.

2010_ 4

Sections: Computer-aided design systems

Subjects: Computer-aided engineering.


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