ISSN 1991-2927
 

ACP № 4 (58) 2019

Author: "Vadim Viktorinovich Shishkin"

Vadim Sergeevich Moshkin, Ulyanovsk State Technical University, Assistant of the Department of Information Systems at Ulyanovsk State Technical University; graduated from the Faculty of Information Systems and Technologies of Ulyanovsk State Technical University; an author of more than 40 papers in the field of intelligent systems. [e-mail: postforvadim@yandex.ru]V. Moshkin,

Aleksandr Nikolaevich Pirogov, JSC ‘Aviastar-SP’, Postgraduate Student of the Institute of Aviation Technologies and Managements of Ulyanovsk State Technical University, Head of the Department of Invest Projects at JSC ‘Aviastar-SP’. [e-mail: anpirogov@icloud.com]A. Pirogov,

Irina Aleksandrovna Timina, Ulyanovsk State Technical University, Assistant at the Department of Information Systems at Ulyanovsk State Technical University; graduated from the Faculty of Information Systems and Technologies of Ulyanovsk State Technical University with a specialty of Applied Informatics (in Economics); an author of articles in the field of intelligent analysis of time series. [e-mail: timina_i@mail.ru@ulstu.ru]I. Timina,

Vadim Viktorinovich Shishkin, Institute of Aviation Technology and Managements of Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor; graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; Head of the Institute of Aviation Technology and Managements of Ulyanovsk State Technical University, an author of articles in the field of automated design of industrial products and Data Mining. [e-mail: shvv@ulstu.ru]V. Shishkin,

Nadezhda Glebovna Yarushkina, Ulyanovsk State Technical University, Doctor of Engineering, Professor; graduated from the Faculty of Radioengineering at Ulyanovsk State Technical University; First Vice-Rector - Vice-Rector for Scientific Affairs of Ulyanovsk State Technical University; an author of more than 250 papers in the field of soft computing, fuzzy logic, and hybrid systems. [e-mail: jng@ulstu.ru]N. Yarushkina

Intelligent Analysis of Project and Terminological Metrics in Project Management 000_11.pdf

This article describes the features of the interaction of participants in the project activity by the example of a large project organization. The model of activities on the basis of metrics version control systems is proposed. The direction of object OWL ontologies application in project activities is also considered. Moreover, an example of the use of ontological structures in solving problems of constructing the unified terminological environment of the project activity in the field of aircraft construction is given. The model of the object ontology of the aircraft flow assembly line (FAL) is proposed by the example of Il-76MD-90A assembly. The experiments of constructing the common terminological basis of the design process by terminology extraction from education materials on corresponding topics in the development of project documentation for the FAL automated management system (FAL AMS) of JSC ‘Aviastar-SP’ are presented.

Project management, version control system, object ontology, terminological environment.

2016_ 4

Sections: Artificial intelligence

Subjects: Artificial intelligence.


Vadim Viktorinovich Shishkin, Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor; graduated from the Faculty of Radio-Engineering at Ulyanovsk Polytechnical Institute; Professor at the Measuring-Computing Complexes Department of Ulyanovsk State Technical University, Dean of the Faculty of Information Systems and Technologies at UlSTU, an author of articles in the field of automated design of industrial products and intellectual data analysis. [e-mail: shvv@ulstu.ru]V. Shishkin,

Denis Igorevich Stenyushkin, Ulyanovsk State Technical University, graduated from the Faculty of Information Systems and Technologies at Ulyanovsk State Technical University; Post-Graduate Student at the Measuring-Computing Complexes Department of Ulyanovsk State Technical University, an author of articles in the field of automated design of industrial products and intellectual data analysis. [e-mail: denisstenyushkin@yandex.ru]D. Stenyushkin,

Michael Genrikhovich Bron, R&D in ScanMaster Systems (IRT) Ltd. (Israel), graduated from the Faculty of Radio-Engineering at Ulyanovsk State Technical University; Vice President of R&D in ScanMaster Systems (IRT) Ltd. (Israel); an author of articles in the field of ultrasonic inspection in industry. [e-mail: misha@scanmaster-irt.com]M. Bron

Mathematical Models and Methods for Real-time Analysis of Railway Rails Ultrasonic Defectograms 38_8.pdf

The article describes a system of mathematical models and methods devoted to a real-time analysis of the ultrasonic defectograms of railway rails during a testing process. The system includes models and methods for a preliminary ultrasonic data processing including a data reading, a range adjusting and a data combining for separate channels and also for a defect search and classification. The preliminary data processing is based on the ultrasonic data reading with a signal queue and their further algebraic modifications aiming to make them suitable for a further processing. The defect search and classification is based on an artificial neural network of Simplified Fuzzy ARTMAP architecture that is modified in order to deal with the input array elements with a wide value range. A decision making method based on a decision tree is introduced in order to solve the occurring conflicts. The introduced models and methods can be effectively implemented basing on modern parallel computing approaches. The tests showed out that the defect recognition rate is not less than 85%.

Defectogram analysis, rails defects detection, neural networks.

2014_ 4

Sections: Information systems

Subjects: Information systems, Mathematical modeling.


Vadim Viktorinovich Shishkin, Ulyanovsk State Technical University, Candidate of Engineering, Associate Professor; graduated from the Faculty of Radio-Engineering at Ulyanovsk State Polytechnical Institute; Professor at the Measuring-Computing Complexes Department of Ulyanovsk State Technical University, Dean of the Faculty of Information Systems and Technologies at UlSTU, an author of articles in the field of automated design of industrial products and intellectual data analysis. [e-mail: shvv@ulstu.ru]V. Shishkin,

Denis Igorevich Stenyushkin, Ulyanovsk State Technical University, graduated from the Faculty of Information Systems and Technologies at Ulyanovsk State Technical University; Post-Graduate Student at the Measuring-Computing Complexes Department of Ulyanovsk State Technical University, an author of articles in the field of automated design of industrial products and intellectual data analysis. [e-mail: denisstenyushkin@yandex.ru]D. Stenyushkin,

Alexander Vyacheslavovich Mikheev, Ulyanovsk State Technical University, graduated from the Faculty of Information Systems and Technologies at Ulyanovsk State Technical University; Post-Graduate Student at the Measuring-Computing Complexes Department of Ulyanovsk State Technical University, an author of articles in the field of measuring-computing system design and intellectual data analysis. [e-mail: sr.alex.anderson@gmail.com]A. Mikheev

Automated Design of Artificial Neural Network Based Classifiers 37_14.pdf

The article describes a system of models and methods for automated design of neural network-based classifiers. The system bases on the closed design cycle with feedback in form of analysis of gathered experience. The system’s goal is decrease of design process’ time costs. Parameters space is utilized as a formal system for experience representation. Parameters space is a space of points that represent sets of classifiers’ parameters. The space is constructed from parameters, which values are being specified through whole classifier’s life cycle from specification up to operation. This formalism allows to formulate the experience and analysis operations performed over it in terms of sets and operations over them. This results into representation improvement and automation costs decrease. Experience analysis bases on comparison of parameters space points’ projections on dedicated directions. It allows to detect classifier design solutions that are convenient to reuse. These solutions include classifier architectures, architectural parameters and neuron input weights. Using the detected parameters values as initial values in a new classifier’s training and setting up process lead to time costs decrease of 15%.

Artificial neural network-based classifiers, classifiers design, parameters space, closed design cycle.

2014_ 3

Sections: Computer-aided engineering

Subjects: Computer-aided engineering, Artificial intelligence.


Tatiana Evgenievna Akimova, PJSC ‘Ulyanovsk Instrumental Manufacturing Design Bureau’, Head of IT Department of PJSC ‘Ulyanovsk Instrumental Manufacturing Design Bureau’; graduated from the Faculty of Mechanics and Mathematics of Lomonosov Moscow State University; author of articles in the field of project and product processes automation and making the unified project and products space of an enterprise. [e-mail: akimovat@bk.ru]T. Akimova,

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

Modeling of Integrated Information Environment of the Enter-prise of the Aircraft Instrument Engineering Industry 32_10.pdf

The article describes the information models of integrated information environment of the aircraft instrument engineering industry enterprise. An integrated information environment computer-aided design software package is created based on this model. Such software package enables to describe business processes, generated and used artefacts, data types and formats, applied tools. It also determines the best set of tools for building an effective integrated information environment of the enterprise and information support of Combat Management Systems (CMS) lifecycle.

Information support of product life cycle processes, normative-referenced data management, unified information space, integrated information environment of the enterprise.

2013_ 2

Sections: Computer-aided design system

Subjects: Computer-aided engineering, Automated control systems, Information systems.


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.


Vadim Viktorinovich Shishkin, Ulyanovsk State Technical University, Candidate of Engineering; graduated from the Faculty of Radio-Engineering of Ulyanovsk Polytechnic Institute; Professor at the Chair Measuring and Computing Complexes of 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@mail.ru]V. Shishkin,

Valery Mikhailovich Kandaulov, Ulyanovsk State Technical University, post-graduate student at the Chair Measuring and Computing Complexes of Ulyanovsk State Technical University; graduated from the Faculty of Information Systems and Technologies of Ulyanovsk State Technical University; author of articles in the field of the development of CAD-systems. [e-mail: kandaulov@gmail.com]V. Kandaulov

A Cad-system for Complex Machine-building Products on Basis of Design Patterns 25_9.pdf

The article considers a computer-aided parametric design system for complex machine-building products, based on an innovation design-pattern methodology for the machine-building field. It also considers basic principles of the design using patterns, advantages of such approach as well as the structure, functions and implementation of the CAD-system using patterns.

Pattern methodology, design of complex machine-building products, parameterized model, cad-systems, computeraided design.

2011_ 3

Sections: Computer-aided design systems

Subjects: Computer-aided engineering, Information systems.


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