The Scientific Graph Programming Paradigms of Systems from Modules to the Application Areas

The Scientific Graph Programming Paradigms of Systems from Modules to the Application Areas

E. M. Lavrischeva

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The Scientific Graph Programming Paradigms of Systems from Modules to the Application Areas

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Abstract

The mathematical basics of graph paradigm programming of applied systems (AS) are presented. The vertices of graph are been the functional modules of the systems and the arcs define the connections between them. The graph is represented by an adjacency and reach ability matrix. A number of graph’ program structures and their representation by mathematical operations (unions, connections, differences, etc.) are shown. Given the characteristics of graph structures, complexes, units, and systems created from the modules of the graph. The method of modelling the system on the graph of modules, which describe in the programming languages (LP) and the advanced operations of association (link, assembling, make, building, config etc.). The standard of configuration (2012) Assembly of heterogeneous software elements in AS of different fields of knowledge is made. A brief description of modern and future programming paradigms for formal theoretical creation of systems from intelligent and service-components of the Internet is given. The modules and AS are protected and quality assessment. There are giving the new direction of modern paradigms programming in the near future.

References

29 Cites in Article

Reference Format

E Lavrischeva,V Grishchenko (1982). The connection of multi-language modules in the OS of the ES.
V Glushkov,A Stogniy,E Lavrischeva,Others (1976). Man and the Automation of Control.
E Lavrischeva,V Grishchenko (1991). Assembly programming.
G Rimsky (1987). Structure and functioning of the modular automation system programming.
M Halstead (1981). The beginnings of a science about the programs.
E Horn,F Winkler (1987). Design of modular structures.-Computer technology of the socialist countries.
G Koval,T Korotun,E Lavrishcheva (1987). On one approach to solving the problem of intermodule and technological interface// All. the collection of the Academy of Sciences and Min.
V Agafonov (1987). Program specification: conceptual tools and their organization.
V Kotov (1978). Introduction.
N Nepeyvoda (1979). Program logic.-Programming.
A Evstigneev (1985). Graph theory in programming.
A Ershov (1977). Constructions ‘by Finite’.
E Lavrishcheva (2016). The theory of object-component modeling of software systems.
E Lavrischeva,A Ryzhov (2016). ON BIG DATA APPLICATION FOR POLITICAL SCIENCE RESEARCH.
E Lavrischeva,V Mutilin,S Коzin,A Ryzhov (2019). Modeling of application and information systems from ready–made Internet service resources.
Ekaterina Lavrischeva,Andrey Ryzhov (2018). Approach to the modeling of systems and sites from ready resources.
I Burdonov,A Kosachev,V Kulyamin (2008). Theory for systems with locks and destructions.
E Lavrischeva (2014). Software Development Management: Processes and Paradigms.
Bruno Courcelle,Joost Engelfriet Graph structure and monadic second-order logic. A language-theoretical approach.
E Lavrischeva,N Pakulin,A Ryjov,S Zelenov (2018). Analysis of methods of assessment reliability of equipment and systems. Practice of application of methods of reliability.
Ekaterina Lavrischeva (2016). Assemblling Paradigms of Programming in Software Engineering.
Lidia Gorodnyaya (2018). Парадигма Программированияon Systematization of Programming Paradigms by Decision-Making Priorities.
Ekaterina Lavrischeva,Andrey Stenyashin,Andrii Kolesnyk (2014). Object-Component Development of Application and Systems Theory and Practice.
Lavrischeva Ekaterina Ontological Approach to the Formal Specification of the Standard Life Cycle.
E Lavrishcheva,I Petrov (2017). 2016 Future Technologies Conference (FTC).
E Lavrischeva (2017). Development of the Theory Programs and Systems in the USSR. History and Modern Theory.
Е Lavrischeva (2018). Scientific Basis of System Programming.
E Lavrischeva,A Petrenko (2018). Iformatics: Formation of computer software and technologies of software systems.
E Lavrischeva (2019). The Theory Graph Modeling and Programming Systems from Module Elements to the Application Areas.

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Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

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No ethics committee approval was required for this article type.

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How to Cite This Article

E. M. Lavrischeva. 2020. \u201cThe Scientific Graph Programming Paradigms of Systems from Modules to the Application Areas\u201d. Global Journal of Science Frontier Research - F: Mathematics & Decision GJSFR-F Volume 20 (GJSFR Volume 20 Issue F1).

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GJSFR Volume 20 Issue F1

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Crossref Journal DOI 10.17406/GJSFR

Print ISSN 0975-5896

e-ISSN 2249-4626

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GJSFR-F Classification MSC 2010: 90C35

Submission ReceivedDecember 28, 2019
Peer Review Double Blind
Handling Editor
Accepted January 27, 2020
Published February 6, 2020

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v1.2

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February 18, 2020

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