Open Access
ITM Web Conf.
Volume 35, 2020
International Forum “IT-Technologies for Engineering Education: New Trends and Implementing Experience” (ITEE-2019)
Article Number 04023
Number of page(s) 12
Section Modernization of Engineering Courses based on software for Computer Simulation
Published online 09 December 2020
  1. A.J. Swart, Student usage of a learning management system at an open distance learning institute: A case study in electrical engineering, International Journal of Electrical Engineering Education, Vol. 52, pp. 142-154 (2015) [CrossRef] [Google Scholar]
  2. Implementation of Industrial Automation Laboratories for E-learning, International Journal of Electrical Engineering Education, Vol. 49, pp. 402-418 (2012) [CrossRef] [Google Scholar]
  3. LabVIEW. Available at: (accessed 14.11.2019) [Google Scholar]
  4. R.Sh. Zagidullin, V.Yu. Antipov, Obyedineniye LABVIEW 2009 i MOODLE dlya organizatsii udalennykh laboratornykh rabot na oborudovanii NI PXI [Combination of LABVIEW 2009 and MOODLE for organization of remote laboratory classes using NI PXI equipment], Inzhenernyye. nauchnyye i obrazovatelnyye prilozheniya na baze tekhnologii National Instruments — 2011: Sbornik trudov X mezhdunarodnoy nauchno-prakticheskoy konferentsii: [Proc. 10th international scientific and practical conference “Engineering, scientific and educational applications based on National Instruments technology — 2011”], Moscow: DMK-press, pp. 309-310 (2011) [Google Scholar]
  5. NI Multisim. Available at: (accessed 14.11.2019). [Google Scholar]
  6. Official website of the Moodle platform. Available at: (accessed 14.11.2019). [Google Scholar]
  7. Blackboard Learning System (Release 6). (n.d.). Retrieved from [Google Scholar]
  8. A. Büchner, Moodle 3 Administration, Birmingham: Packt Publishing (2016) [Google Scholar]
  9. Moodle Docs 2.8. (n.d.). Retrieved from [Google Scholar]
  10. A. Gardel, I. Bravo, P.A. Revenga, J.L. Lázaro & J. García, Implementation of Industrial Automation Laboratories for E-learning, International Journal of Electrical Engineering Education, 49, pp. 402-418 (2012) [CrossRef] [Google Scholar]
  11. F. Alam, R.G. Hadgraft, Q. Alam, eLearning: Challenges and Opportunities, F. Alam (Ed.), Using Technology Tools to Innovate Assessment, Reporting, and Teaching Practices in Engineering Education, pp.217–226, Hershey: IGI Global (2014) [CrossRef] [Google Scholar]
  12. L. Oliveira, N. Vasconcelos, F. Queiroz, J. Queiroz & H. Hékis, Contribution of Integrated Management Systems to University Management: Case Study of the Federal University of Rio Grande Do Norte, Journal of Social Sciences, 7(3), pp. 415-422 (2011) [CrossRef] [Google Scholar]
  13. S. Palahicky, Utilizing Learning Management System (LMS) Tools to Achieve Differentiated Instruction, J. Keengwe & J.J. Agamba (Eds.), Models for Improving and Optimizing Online and Blended Learning in Higher Education, pp. 12–33, Hershey: IGI Global (2014) [Google Scholar]
  14. A. Poncela, A Blended Learning Approach for an Electronic Instrumentation Course, International Journal of Electrical Engineering, 50, pp. 1-1 (2013) [CrossRef] [Google Scholar]
  15. P. Radoyska, N. Spasova, Remote FPGA Lab, International Journal of Web-Based Learning and Teaching Technologies (IJWLTT), 7(4), pp. 53-62 (2012) [CrossRef] [Google Scholar]
  16. University Management System UMS. (n.d.). Retrieved from [Google Scholar]
  17. R.S. Zagidullin, A.S. Chernikov, A.A. Chibisov, Integration of MOODLE and ELECTRONIC UNIVERSITY systems at BMSTU, Handbook of Research on Engineering Education in a Global Context, E.V. Smirnova and R.P. Clark.Hershey, PA: IGI Global, Vol. 2, p.418-429 (2018). DOI: 10.4018/978-1-5225-3395-5 [Google Scholar]
  18. R.S. Zagidullin, A.S. Chernikov, Creation of integrated environment at the university for distance and blended education of engineering profile, Nanotechnology: development and applications – XXI Century ISSN 2225-0980, No. 1, pp. 27-39 (2017) [Google Scholar]
  19. R.S. Zagidullin, A.S. Chernikov, Data updating in the MOODLE environment in the remote access mode for a distance laboratory workshop LabVIEW – Multisim, Nanotechnology: development and applications – XXI Century ISSN 2225-0980, No. 1, pp. 40-49 (2017) [Google Scholar]
  20. C. Mwikirize, A.T. Asiimwe, P.I. Musasizi, S.S. TickodriTogboa, A. Katumba, J. Butime Makerere. New dimensions in teaching digital electronics: a multimode laboratory utilizing NI ELVIS IITM, LABVIEW AND NI MULTISIM, International Journal of Online and Biomedical Engineering (iJOE) – eISSN: 2626-8493. Vol. 6, Issue 4, November 2010, p.49-54 (2010). doi:10.3991/ijoe.v6i4.1396 [Google Scholar]
  21. Gülden Günay Bulut, M. Emin Şahin, Hasan Güler, An implementation of chaotic circuits with Multisim-LabVIEW, International Advanced Researches and Engineering Journal 02(03), pp. 304-308 (2018) [Google Scholar]
  22. Virtual Instrument Systems in Reality (VISIR) for Remote Wiring and Measurement of Electronic Circuits on Breadboard, IEEE Transactions on Learning Technologies 2013, Vol. 6, pp. 60-72 (2013). DOI Bookmark: 10.1109/TLT.2012.20 [Google Scholar]

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