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10.14489/vkit.2021.07.pp.037-045

DOI: 10.14489/vkit.2021.07.pp.037-045

Губский Д. С., Дайнеко Е. А., Цой Д. Д., Ипалакова М. Т., Иванова И. Н.,Клещенков А. Б.
ВИРТУАЛЬНАЯ ЛАБОРАТОРНАЯ РАБОТА С УДАЛЕННЫМ ДОСТУПОМ
(с. 37-45)

Аннотация. Рассмотрен подход к созданию виртуальных лабораторных работ с удаленным доступом, работающих в среде виртуальной реальности. Показано, что модели приборов, имеющие компьютерный интерфейс, полностью аналогичный реальным устройствам, с использованием элементов виртуальной реальности позволяют повысить эффективность их применения в учебном процессе. Приведено описание создания лабораторной работы по изучению СВЧ-фильтра.

Ключевые слова:  компьютерное моделирование; лабораторная работа; виртуальная лаборатория; дистанционное обучение; виртуальная реальность; образовательная платформа.

 

Gubsky D. S., Daineko Е. A., Tsoy D. D., Ipalakova M. T., Ivanova I. N., Kleschenkov A. B.
VIRTUAL LAB WITH REMOTE ACCESS
(pp. 37-45)

Abstract. In the 21st century, we are experiencing a major change in teaching methods caused by the ubiquity of the Internet, which means that knowledge is available to anyone on the Internet without leaving home. Today, the role of a teacher is changing. Students perceive information differently. With the development of information technology, the penetration of digital tools into various spheres of our life is becoming common practice, and the field of education is no exception. Digital technologies provide many opportunities to improve education. One of the possible directions for improving higher professional education using digital technologies is the use of distance learning in the educational process. In distance learning, it is important to transfer materials not only through video calls to the student (webinars, video lectures), but also through the use of interactive technologies, especially in laboratory and practical works. This article provides an overview of the world experience in the development and implementation of labs with remote access. An approach to the creation of virtual laboratory works with remote access working in a virtual reality environment is considered. It is shown that equipment models with a computer interface completely analogous to real devices and the use of virtual reality elements make it possible to increase the effectiveness of their use in the educational process. A description of the creation of a laboratory work on the study of a microwave filter is given.

Keywords: Computer modeling; Laboratory work; Virtual laboratory; Distance learning; Virtual reality; Educational platform.

Рус

Д. С. Губский (Южный федеральный университет, Ростов-на-Дону, Россия)
Е. А. Дайнеко, Д. Д. Цой, М. Т. Ипалакова (Международный университет информационных технологий, Алматы, Казахстан)
И. Н. Иванова, А. Б. Клещенков (Южный федеральный университет, Ростов-на-Дону, Россия) E-mail: Этот e-mail адрес защищен от спам-ботов, для его просмотра у Вас должен быть включен Javascript

 

Eng

D. S. Gubsky (Southern Federal University, Rostov-on-Don, Russia)
Е. A. Daineko, D. D. Tsoy, M. T. Ipalakova (International Information Technology University, Almaty, Kazakhstan)
I. N. Ivanova, A. B. Kleschenkov (Southern Federal University, Rostov-on-Don, Russia) E-mail: Этот e-mail адрес защищен от спам-ботов, для его просмотра у Вас должен быть включен Javascript

 

Рус

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Eng

1. Koehn N. et al. (2020). Research of Methods of Teaching Humanities Discontinued in Distance Students. Journal of Critical Reviews, Vol. 7, 14, pp. 528 – 531.
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4. Ventsel' V. D., Tsorina O. A., Yanchiy S. V. (2018). Organization of training and control of students' knowledge using information technologies: on the example of a technical university. Azimut nauchnyh issledovaniy: pedagogika i psihologiya, Vol. 7, 22(1), pp. 50 – 54. [in Russian language]
5. Daineko Ye., Dmitriyev V., Ipalakova M. et al. (2014). Use of Information and Communication Technologies (ICT) in Higher Education. International Conference on New Trends and Information and Communication Technologies. Almaty.
6. Hernández-de-Menéndez M., Guevara A. V., Morales-Menendez R. (2019). Virtual Reality Laboratories: a Review of Experiences. International Journal on Interactive Design and Manufacturing (IJIDeM), Vol. 13, (3), pp. 947 – 966.
7. Jasti N. V. K., Kota S., Venkataraman P. B. (2020). An Impact of Simulation Labs on Engineering Students’ Academic Performance: a Critical Investigation. Journal of Engineering, Design and Technology.
8. Liu Y. H., He Y. T., Tian D. et al. (2018). Virtual Laboratory for SHRIMP. Computer Applications in Engineering Education, (5), pp. 1493 – 1506.
9. Sagitova R. N., Gilmanshina S. R., Gilmanshin I. R. et al. (2020). Digitalization of Education: Transformation of a Natural Science Experiment. IOP Conference Series: Materials Science and Engineering, Vol. 915, (1).
10. Gubsky D. S., Kleschenkov A. B., Mamay I. V. (2019). Virtual Laboratory for Microwave Measurements. Computer Applications in Engineering Education, Vol. 27, (6), pp. 1496 – 1505.
11. Gubsky D. S., Zemlyakov V. V. (2019). Advanced Microwave Equipment Simulator for Engineering Education. International Journal of Electrical Engineering Education, Vol. 56, (1), pp. 92 – 101.
12. Titov I., Glotov A., Yelizarov A., Petrov V. (2016). Standartization Use Case of Solid-State Laser Lab and RF&Microwave Amplifier Remote and Virtual Laboratories at Labicom. International Journal of Online Engineering, Vol. 12, (9), pp. 47 – 51.
13. Gubsky D. S., Zemlyakov V. V., Mamay I. V. (2014). The Modern Approach to Virtual Laboratory Workshop. International Journal of Online Engineering, Vol. 10, (2), pp. 56 – 59.
14. Gubskiy D. S., Zemlyakov V. V., Mamay I. V. (2016). Integration of a computer model of a vector network analyzer into a virtual microwave laboratory. Vestnik komp'yuternyh i informatsionnyh tekhnologiy, 139(1), pp. 49 – 54. [in Russian language] DOI 10.14489/vkit.2016.01.pp.049-054

Рус

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