Antoni Kozic, Eugenijus Macerauskas, Paulius Sakalys


Practice shows that the best built and maintain by the knowledge, is based on and secured personal work experience. Source of expertise can be carried out e-laboratory theoretical and practical experiments. The study key is the development of the system will hamper its inappropriate use. There is a lack of e-tools that enable students to deal with the challenge, problem or phenomenon monitoring experiments t. y. entering or selecting the initial data. New technology, especially electronic, progress is very important because it allows the development of continuing education, distance education, the democratization of it, adapting to people with different capabilities and needs. Discussed problem is creating a different type of laboratory. The key novelty is that it is not a virtual laboratory based on software tools, but the real remote-controlled electronics lab. Produced simplified conceptual model for remote laboratory experiments and demonstration. The article describes a real remote e-laboratory designed and applied in Vilniaus kolegija/University of Applied Sciences as an experimental practical method for distance learning.


NI-ELVIS; remote laboratory; blended learning

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Barrero, F., Toral, S. & Gallardo, S. (2008). eDSPLab: Remote Laboratory for Experiments on DSP Applications. Internet Research, 18(1), 79 – 92.

Beghi, A., Cervato, A. & Rampazzo, M. (2015). A Remote Refrigeration Laboratory for Control Engineering Education, IFAC-PapersOnUne, 48(29), 25-30.

Borodin, S., Batovrin, V. & Romanov, A. (2009). LabVIEW Elektronikos praktiniai darbai (pp.20–25). Learning materials: VPU Press

Digi Inc. (2016). USB and Serial Connectivity solutions AnywhereUSB: a global survey Downloaded from anywhereusb.pdf

Fabregas, E., Farias, G., Dormido-Canto, S., Dormidoa, S. & Esquembre F. (2011). Developing a Remote Laboratory for Engineering Education. Computers & Education, 57, 1686-1697.

Gontean, A., Szab, R. & Lie, I. (2009). LabVIEW Powered Remote Lab, Design and Technology of Electronics Packages. SIITME 2009 15th International Symposium for, p.17-20, Sept. 2009.

Hercog, D., Gergic, B., Uran, S. & Jezernik, K. (2007). A DSP-Based Remote Control Laboratory. IEEE Transactions on Industrial Electronics, 54(6), 3057 – 3068.

Nantional Instruments (2005). NI Educational Laboratory Virtual Instrumentation Suite II Series (NI ELVIS II Series) User Manual: a global survey. Downloaded from

National Instruments. 2010). LabVIEW Web UI Builder Help 2010. Available from

Pengfei, L. & Luhua, N. (2009). Remote Control Laboratory Based On LabVIEW. IEEE 2 nd International Conference on Intelligent Computation Technology and Automation, v.4, p.84-87, oct.2009. ISBN 978-0-7695-3804-4.

Stefanovic, M., Cvijetkovic, Matijevic, M. & Simic, V. (2011). A LabVIEW-based Remote Laboratory Experiments for Control Engineering Education. Computer Applications in Engineering Education. 19(3), 538–549.

The IIE Center for Academic Mobility Research and Impact Institute of International Education (2014). Fall 2014 Snapshot survey of international student enrolment: a global survey. Downloaded from

Travis, J. (2010). Internet Applications in LabVIEW. USA: Hall PTR.

Uran, S., Hercog, D., Jezernik, K. (2007). Remote Control Laboratory with Moodle Booking System, Industrial Electronics. IEEE International Symposium, p.2978–2983, june 2007. ISBN: 978-1-4244-0754-5.

Ursutiu, D., Cotfas, P., Samoila, C., Zamfira, S. & Auer M. (2004). NI-ELVIS in Remote Electronic Laboratory REL. Proceedings of the 1st International Symposium on Remote Engineering and Virtual Instrumentation, Villach, Austria, 28./29. september 2004. ISBN 3-89958-090-7.



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