2. Home
  3. ARCHIVE
  4. 2023
  5. VOL 45, NO 4 (2023)
  6. pp. 42-60

Software development method for conducting virtual conferences

А.M. Kapiton 1, doct. of ped. sciences; О.V. Kryvoruchko 2, doct. of techn. science;
D.O. Tyshсhenko 2, cand. of ec. science; Т.M. Franchuk 2, cand. of ec. science;
O.S. Trebyk 3, cand. of phil. science;
1 National University «Yuri Kondratyuk Poltava Polytechnic»
  Ukraine, 36011, Poltava, Pershotravnevy prospect, 24
  tel. +38 (066) 9440001, е-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.;
2 State University of Trade and Economics
  Ukraine, 02156, Kyiv, Kyoto Street, 19
  tel. +38 (097) 5472345, е-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.;
3 Interregional Academy of Personnel Management
  Ukraine, 03039, Kyiv, Frometivska Street, 2
  tel. +38 (095) 6321653, е-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

Èlektron. model. 2023, 45(4):42-60

https://doi.org/10.15407/emodel.45.04.042

ABSTRACT

The main areas of use of virtual conferences are defined in the study. The analysis of software development tools for conducting virtual conferences was performed. An analysis of the tasks was carried out, which helps to effectively solve the virtual conference. Each stage of conducting a virtual conference has been studied and described. The advantages and disadvantages of holding the conference are determined. A site for virtual conferences has been designed and software implemented, provided that all necessary conditions are met and potential shortcomings are eliminated. Software development technologies are considered. It is substantiated that the software development method for conducting virtual conferences includes three main stages: problem analysis and task setting; study of the theoretical foundations of software development for conducting virtual conferences; development and implementation of software for conducting virtual conferences. The basic processes of software creation have been studied. It is proven that the development of requirements is a process that includes the activities necessary for the creation and assertion of a document containing the specification of system requirements. An analysis of the levels of their detail was carried out: requirements put forward by end users; system specification for developers. Four main stages of the requirements development process were studied: analysis of the technical feasibility of creating a system; formation and analysis of requirements; specification of requirements and creation of relevant documentation; certification of these requirements. The main stages of creating a modern website are considered. The result of the requirements definition process is documentation that formalizes the requirements for the system. The developed site for holding conferences must meet the requirements of standards that regulate the life cycle of software. The fundamental processes characteristic of any software creation project are analyzed.

KEYWORDS

automated information system, database, virtual conference, site, database management system, software, web server.

REFERENCES

  1. Speinauer, S. (2007). Web Master's Guid,
  2. Thomson, L. & Welling, L. (2009). Development of Web applications on PHP and MySQL, DiaSoft.
  3. SEO Dictionary. (2022). http://igroup.com.ua/seo-articles/ (date of access: 20.06.2023).
  4. Ukrainian Industry Strategy 4.0. (2022). https:// industry4-0-ukraine.com.ua/ (date of access: 21.06.2023).
  5. Palchevskyi, B. & Krestyanpol, L.(2020). “The Use of the “DigitalTwin” Concept for Proactive Diagnosis of Technological Packaging Systems”, IEEE Data Stream Mining & Processing 2020, CCIS, 423-444.
    https://doi.org/10.1007/978-3-030-61656-4_29
  6. Dumanskyi, N. & Markovets, O. (2009). “Intellectual system of searching and collecting information from thematic Web resources Information systems and networks”, Visnyk Natsionalnoho universytetu «Lvivska politekhnika", 631, 101-106.
  7. Securing IT and OT in Industrial and Manufacturing Environment. (2022). https://www.armis.com/white-papers/securing-it-ot-in-industrial-envi­ronments/ (date of access: 20.06.2023).
  8. Palchevskyi, B. & Krestyanpol, L. (2020). “Strategy of construction of intellectual production systems”, IEEE Data Stream Mining & Processing 2020, CCIS, 362.
    https://doi.org/10.1109/DSMP47368.2020.9204190
  9. Cisco Visual Networking Index: Forecast and Trends, 2017- (2022). https://www.cisco.com/c/en/us/solutions/collateral/service-provider/visual-networking-index-vni/white-paper-c11- 741490.html (date of access: 22.06.2023).
  10. Shkvir, V., Zagorodniy, A. & Vysochan, O. (2008). Information systems and technologies, NULP.
  11. Naughton, P. & Schildt, G. (2007). The complete Java reference book,
  12. Chukhrai, N. & Shcherbata, T. (2016), “Cooperation between IT development enterprises and universities”, Marketing and management innovations, 3, 161-169.
  13. Hafiiak, A., Borodina, О., Alyoshin, S. & Nosach, O. (2018). “The information society and informatization development problems of economy”, International Journal of Engineering and Technology, 7(4.8), 364-
  14. Hafiiak A. (2019). “Problems of professional competence formation of future specialists on information and communication technologies in universities”, Modern scientific achievements, Series: Education and pedagogy, Issue 10, Part 2, 15-18.
  15. Melnyk, M., Korcelli-Olejniczak, E., Chorna, N. & Popadynets, N. (2018). “Development of Regional IT clusters in Ukraine: institutional and investment dimensions”, Economic Annals-XXI, 19-25.
    https://doi.org/10.21003/ea.V173-03

Full text: PDF