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Realization and Development of the System of Distance Learning in Technical Universities

Development of a Network of Open Remote Education , UDC: 378.147 DOI: 10.25688/2072-9014.2021.58.4.09

Authors

  • Akhmedzyanov Dmitry Albertovich Professor, Doctor of Technical Sciences
  • Kudoyarova Vilina Maratovna Associate Professor, PhD (Technical Sciences)
  • Kishalov Alexander Evgenievich Associate Professor, PhD (Technical Sciences)

Annotation

The article performed an overview of distance education systems (LMS) in technical universities and analysis, taking into account the experience of implementation and the concept of development of LMS in USATU. The article also provides an example of using a virtual bench for testing aircraft engines. The comparison of the simulation results in ANSYS CFX and the obtained experimental data from various hydro-gas-dynamic laboratory facilities is carried out. The relative error in the simulation of SR-30 turbojet engines in steady-state conditions is 0,1–0,6 %, and in the transition process 0,9–6,9 %, which allows you to remotely use the described virtual bench and the developed simulation system for studying complex processes flowing in aircraft engines in transitional and steady-state modes when studying specialized disciplines by students of USATU.
Tags:
distance education system; E-learning; LMS; Moodle; simulation system.

How to link insert

Akhmedzyanov, D. A., Kudoyarova, V. M. & Kishalov, A. E. (2021). Realization and Development of the System of Distance Learning in Technical Universities Bulletin of the Moscow City Pedagogical University. Series "Pedagogy and Psychology", 2021, №4 (58), 94. https://doi.org/10.25688/2072-9014.2021.58.4.09
References
1. 1. Ajdrus I. A. Z., Asmyatulli R. R. Mirovoj opy`t ispol`zovaniya texnologij distancionnogo obrazovaniya // Vy`sshee obrazovanie v Rossii. 2015. № 5. S. 139–145.
2. 2. Axmedzyanov D. A. Metodika provedeniya e`ksperimenta dlya polucheniya xarakteristik toplivnoj avtomatiki odnoval`nogo gazoturbinnogo dvigatelya s ispol`zovaniem SCADA-sistemy` / D. A. Axmedzyanov i dr. // Neftegazovoe delo. 2012. T. 10. № 2. S. 121–125.
3. 3. Axmedzyanov D. A. E`ksperimental`noe issledovanie staticheskix i dinamicheskix xarakteristik gazoturbinny`x dvigatelej na avtomatizirovanny`x laboratorny`x ustanovkax SR-30 i TJ-100 pri razlichny`x algoritmax upravleniya dvigatelem / D. A. Axmedzyanov i dr. // Molodoj ucheny`j. 2013. № 3 (50). S. 26–34.
4. 4. Axmedzyanov D. A., Kishalov A. E., Suxanov A. V. Obmen danny`mi mezhdu SCADA-sistemoj i sistemoj imitacionnogo modelirovaniya aviacionny`x dvigatelej v processe ispy`tanij // Molodoj ucheny`j. 2011. T. 1. № 8 (31). S. 50–53.
5. 5. Bogdanov V. V. Distancionnoe obuchenie — celi, zadachi, osobennosti, xarakteristika, problemy` // Izvestiya vuzov. Severo-Kavkazskij region. 2003. № 1. S. 82–84.
6. 6. Ivanova P. O. Preimushhestva LMS Moodle v sravnenii s drugimi sistemami obucheniya e-learning // Voprosy` metodiki prepodavaniya v vuze: ezhegodny`j sbornik. 2014. № 3 (17). S. 219–223.
7. 7. Kishalov A. E., Ignat`ev O. I. Modelirovanie strujny`x techenij v ANSYS CFX // Molodezhny`j vestnik UGATU. 2013. № 2 (7). S. 82–89.
8. 8. Klevanskij V. M., Kishalov A. E. Issledovanie adiabaticheskogo dozvukovogo techeniya gaza s treniem po kanalu postoyannogo secheniya: laboratorny`j praktikum. Ufa: RIK UGATU, 2017. 69 s.
9. 9. Sergeev A. G., Nemontov V. A., Balandina V. V. Vvedenie v e`lektronnoe obuchenie. Vladimir: Izd-vo VlGU, 2012. 182 s.
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