FEATURES OF MODELING OF MULTICOMPONENT INFORMATION TECHNOLOGY OF AUTOMATED TESTING

Authors

  • Andrii Yarovyi Vinnytsia National Technical University
  • Yaroslav Ivanchuk Vinnytsia National Technical University
  • Volodymyr Ozeranskyi Vinnytsia National Technical University
  • Volodymyr Vasylevskyi Vinnytsia National Technical University

DOI:

https://doi.org/10.31649/1999-9941-2021-52-3-53-59

Keywords:

information technology, modelling, automated testing, modular testing, software

Abstract

This work considers the problems of the software life cycle testing stage. After the analysis, the relevance to use automated testing systems in the implementation of software products was determined. Based on this, the structure of information technology of automated testing and features of the implementation of software interface components and dynamic analyzers are described. As a result, the multicomponent information technology of automated testing is modeled, which satisfies the needs of users in the high-quality implementation of the modular testing process.

Author Biographies

Andrii Yarovyi, Vinnytsia National Technical University

Dr.Sc. (Eng.), Professor, Head of Department for Computer Science

Yaroslav Ivanchuk, Vinnytsia National Technical University

Dr.Sc. (Eng.), Associate Professor, Professor of Department for Computer Science

Volodymyr Ozeranskyi, Vinnytsia National Technical University

Ph.D. (Eng.), Senior Lecturer of Department for Computer Science

Volodymyr Vasylevskyi , Vinnytsia National Technical University

Department Information Technologies and Computer Engineering

References

The True Cost of a Software Bug: Part One. [Online]. Available: https://www.celerity.com/the-truecost-of-a-software-bug Accessed on: Oct. 30, 2021.

Software Bugs Cost U.S. Economy $59.6 Billion Annually, RTI Study Finds, 2021. [Online]. Available: http://www.nist.gov/director/prog-ofc/report02-3.pdf. Accessed on: Oct. 30, 2021.

V. O. Vasylevskyi, A. A. Yarovyi, «Stvorenya intelektualnoi systemy avtomatyzovanoho testuvann-ya na osnovi framework unit-testuvannya», Materialy L naukovo-tekhnichnoi konferentsii fakultetu infor-matsiinykh tekhnolohii ta kompiuternoi inzhenerii, s. 627 – 629. 2021. [Elektronnyi resurs]. Rezhym dostupu: https://conferences.vntu.edu.ua/public/files/1/vntu_2021_netpub.pdf. Data zvernennia: Zhovt. 30, 2021 [in Ukrainian].

V. O. Vasylevskyi, A. А. Yarovyi, «Features of providing access to the software tools of the automat-ed testing information system», Materialy V mizhnarodnoi naukovo-praktychnoi konferentsii «Modern directions of scientific research development», s. 230–234. 2021. [Elektronnyi resurs]. Rezhym dostupu: https://sci-conf.com.ua/wp-content/uploads/2021/11/MODERN-DIRECTIONS-OF-SCIENTIFIC-RESEARCH-DEVELOPMENT-28-30.10.21.pdf. Data zvernennia: Zhovt. 30, 2021 [in Ukrainian].

Osherov R. The art of unit testing with examples in .NET – Grinvich: Manning Publication Co, 2009, s. 20.

S. Freeman, Growing Object-Oriented Software Guided by Tests – Crawfordsville, Indiana: Donnel-ley, 2012, s. 28-29.

S. Avramenko, V. S. Avramenko, G. V. Kosenyuk, Testuvannya programnogo zabespechennia. Navchalnyi posibnyk. Chernkasy: CNU imeni Bogdana Khmelnytskogo, 2017, s. 284 [in Ukrainian].

G. Mayers, T. Badgett, C. Sandler, The art of software testing, 3-rd edition. [Elektronnyi resurs]. Rezhym dostupu: http://www.dialektika.com/books/978-5-8459-1796-6.html. Data zvernennia: Zhovt. 30, 2021.

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Abstract views: 184

Published

2021-12-25

How to Cite

[1]
A. Yarovyi, Y. Ivanchuk, V. Ozeranskyi, and V. Vasylevskyi, “FEATURES OF MODELING OF MULTICOMPONENT INFORMATION TECHNOLOGY OF AUTOMATED TESTING”, ІТКІ, vol. 52, no. 3, pp. 53–59, Dec. 2021.

Issue

Vol. 52 No. 3 (2021): Information technology and computer engineering

Section

Information technology and coding theory

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