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Назва:	Didactic Terms of Shaping Pedagogical Universities Students’ Digital Competence in the Process of Teaching Informatics Courses
Автори:	Лаврентьєва, Олена Олександрівна Моісеєнко, Михайло Вікторович Моісеєнко, Наталя Володимирівна
Ключові слова:	didactic terms information competence digital competence students of pedagogical universities informative disciplines structural-functional model
Дата публікації:	лип-2023
Видавництво:	SciTePress
Бібліографічний опис:	Lavrentieva O. O. Didactic Terms of Shaping Pedagogical Universities Students’ Digital Competence in the Process of Teaching Informatics Courses / Olena O. Lavrentieva, Mykhailo M. Moiseienko, Natalia V. Moiseienko // Proceedings of the 2nd Myroslav I. Zhaldak Symposium on Advances in Educational Technology (AET 2021) / editors : Serhiy Semerikov, Viacheslav Osadchyi, Olena Kuzminska. – Setúbal, 2023. – Pp. 869–880. – DOI: 10.5220/0012074900003431
Короткий огляд (реферат):	In this study the results of the conducted theoretical and experimental research on determining, grounding and testing of didactic terms of shaping pedagogical universities students’ digital competence in the process of teaching informatics courses have been presented. The object of the research is the process of shaping digital competency of pedagogical universities students. The subject of the research is the didactic terms that contribute to the shaping of digital competence of pedagogical universities students in the process of teaching informatics courses. The article provides insight into the essence of the conducted pedagogical experiment on the assesses of the effectiveness of didactic terms of shaping pedagogical universities students’ digital competence in the process of teaching informatics courses. The conducted quantitative, qualitative and statistical analyses have identified a positive and statistically significant dynamic in the levels of formation of the competence in question in accordance with the defined criteria; in the degree of the system acquisition of this phenomenon; in general levels of the formation of digital competence of students from the experimental group.
Опис:	(2016). Project “Digital Agenda of Ukraine” – 2020. Conceptual Background (version 1.0). https://ucci.org.ua/uploads/files/58e78ee3c3922.pdf. Aleksiuk, A. M. (1993). Pedahohika vyshchoi shkoly. Kurs lektsii: modulne navchannia. Kyiv. derzh. un-t, Kyiv. Balyk, N., Vasylenko, Y., Shmyger, G., Oleksiuk, V., and Skaskiv, A. (2019). Design of Approaches to the Development of Teacher’s Digital Competencies in the Process of Their Lifelong Learning. In Ermolayev, V., Mallet, F., Yakovyna, V., Kharchenko, V. S., Kobets, V., Kornilowicz, A., Kravtsov, H., Nikitchenko, M. S., Semerikov, S., and Spivakovsky, A., editors, Proceedings of the 15th International Conference on ICT in Education, Research and Industrial Applications. Integration, Harmonization and Knowledge Transfer. Volume II: Workshops, Kherson, Ukraine, June 12-15, 2019, volume 2393 of CEUR Workshop Proceedings, pages 204–219. CEUR-WS.org. http: //ceur-ws.org/Vol-2393/paper 237.pdf. Bespalko, V. P. (1960). Requirements of educational films for professional and technical education. Soviet Education, 2(3):17–19. https://doi.org/10.2753/RES1060-9393020317. Bespalko, V. P. (2018). Kyberpedahohyka. Pedahohycheskye osnovy upravliaemoho kompiuterom obuchenyia (E-Learning) (Cyberpedagogy pedagogical basics of computer assisted education (ELearning)). Narodnoe obrazovanie, Moskva. Bilousova, L. I., Gryzun, L. E., Lytvynova, S. H., and Pikalova, V. V. (2022). Modelling in GeoGebra in the Context of Holistic Approach Realization in Mathematical Training of Pre-service Specialists. In Semerikov, S., Osadchyi, V., and Kuzminska, O., editors, Proceedings of the 1st Symposium on Advances in Educational Technology - Volume 1: AET, pages 499–510. INSTICC, SciTePress. https://doi.org/10. 5220/0010925700003364. Bondarchuk, O., Balakhtar, V., Gorova, O., Lytvynenko, N., Pinchuk, N., Shmanko, O., Kiv, A., and Oleksiuk, V. (2022). Features of responsibility of future specialists of the socionomic professions as an indicator of their digital competence. Educational Technology Quarterly, 2022(1):35–55. https://doi.org/10.55056/etq.12. Burov, O., Bykov, V., and Lytvynova, S. (2020). ICT Evolution: from Single Computational Tasks to Modeling of Life. In Sokolov, O., Zholtkevych, G., Yakovyna, V., Tarasich, Y., Kharchenko, V., Kobets, V., Burov, O., Semerikov, S., and Kravtsov, H., editors, Proceedings of the 16th International Conference on ICT in Education, Research and Industrial Applications. Integration, Harmonization and Knowledge Transfer. Volume II: Workshops, Kharkiv, Ukraine, October 06-10, 2020, volume 2732 of CEUR Workshop Proceedings, pages 583–590. CEUR-WS.org. http://ceur-ws.org/Vol-2732/20200583.pdf. Cabinet of Ministers of Ukraine (2013). Strategy for the Development of the Information Society in Ukraine. https://zakon.rada.gov.ua/laws/show/386-2013-%D1%80#Text. Carretero, S., Vuorikari, R., and Punie, Y. (2017). DigComp 2.1: The Digital Competence Framework for Citizens with eight proficiency levels and examples of use. Publications Office of the European Union, Luxembourg. https://doi.org/10.2760/38842. Chernilevskyi, D. V., Antonova, O. Y., Baranovska, L. V., Vozniuk, O. V., and Dubaseniuk, O. A. (2010). Didactic Terms of Shaping Pedagogical Universities Students’ Digital Competence in the Process of Teaching Informatics Courses Metodolohiia naukovoi diialnosti. Vydavnytstvo AMSKP, Vinnytsia. Dakhin, A. (2012). Modelirovanie kompetentnosti uchastnikov otkryitogo obschego obrazovaniya. Elkin, O., Hrynevych, L., kalashnikova, S., Khobzey, P., Kobernyk, I., Kovtunets, V., Makarenko, O., Malakhova, O., Nanayeva, T., Shiyan, R., and Usatenko, H. (2017). The New Ukrainian School: conceptual principles of secondry school reform. https://mon.gov.ua/storage/app/media/zagalna% 20serednya/Book-ENG.pdf. European Commission, Joint Research Centre, Redecker, C., and Punie, Y. (2017). European Framework for the Digital Competence of Educators: DigCompEdu. Publications Office of the European Union, Luxembourg. https://doi.org/10.2760/159770. Falfushynska, H. I., Buyak, B. B., Tereshchuk, H. V., Torbin, G. M., and Kasianchuk, M. M. (2021). Strengthening of e-learning at the leading Ukrainian pedagogical universities in the time of COVID-19 pandemic. CTE Workshop Proceedings, 8:261–273. https://doi.org/10.55056/cte.237. Gershunsky, B. S. and Pullin, R. T. (1990). Current Dilemmas for Soviet Secondary Education: an Anglo-Soviet Analysis. Comparative Education, 26(2-3):307–318. https://doi.org/10.1080/0305006900260212. Gurevych, R. S., Klochko, O. V., Klochko, V. I., Kovtoniuk, M. M., and Opushko, N. R. (2020). Computer science teachers’ readiness to develop and use computer didactic games in educational process. Information technologies and learning tools, 75(1):122–137. https://doi.org/10.33407/itlt.v75i1.3394. Havrilova, L. H. and Topolnik, Y. V. (2017). Digital culture, digital literacy, digital competence as the modern educational phenomena. Information Technologies and Learning Tools, 61(5):1–14. https://doi.org/10.33407/ itlt.v61i5.1744. Honcharenko, S. U., editor (2000). Vocational education: vocabulary. Vyshcha shkola, Kyiv. Honcharenko, S. U. (2012). Naukovi shkoly v pedahohitsi [Scientific schools in pedagogy]. In Kremen, V. and Levovitsky, T., editors, Stanovlennia i rozvytok naukovo-pedahohichnykh shkil: problemy, dosvid, perspektyvy [Formation and development of scientific and pedagogical schools: problems, experience, perspectives], pages 27–43. Vyd-vo ZhDU imeni Ivana Franka, Zhytomyr. http://eprints.zu.edu.ua/id/eprint/ 8552. Hrynevych, L., Morze, N., Vember, V., and Boiko, M. (2021). Use of digital tools as a component of STEM education ecosystem. Educational Technology Quarterly, 2021(1):118–139. https://doi.org/10.55056/etq. 24. Hrynevych, L. M., Khoruzha, L. L., and Proshkin, V. V. (2022). Improving the quality of mathematical education of pupils: diagnostics and analytics. Journal of Physics: Conference Series, 2288(1):012022. https://doi.org/10.1088/1742-6596/2288/1/012022. Hurevych, R. S., Kademiia, M. I., and Koziar, M. M. (2012). Informatsiino-komunikatsiini tekhnolohii v profesiinii osviti maibutnikh fakhivtsiv [Information and communication technologies in the professional education of future specialists]. LDU BZhD, Lviv. Kademiya, M. Y. and Kobysia, V. M. (2017). Implementation SMART-learning tools of modern network technologies. CTE Workshop Proceedings, 4:36–40. https://doi.org/10.55056/cte.322. Khutorskaya, A. V. and Korol, A. D. (2008). Dialogue as a problem of modern education (philosophical and methodological aspect) [Dialogichnost’ kak problema sovremennogo obrazovaniia (filosofskometodologicheskii aspekt)]. Voprosy Filosofii, (4):109 – 115. Kodliuk, Y., Bibik, N., Kodliuk, I., Kodliuk, L., and Radchenko, O. (2021). School textbook as an object of pedagogical research. SHS Web of Conferences, 104:02009. https://doi.org/10.1051/shsconf/ 202110402009. Kukharenko, V., Shunevych, B., and Kravtsov, H. (2022). Distance course examination. Educational Technology Quarterly, 2022(1):1–19. https://doi.org/10. 55056/etq.4. Kuts, M. and Lavrentieva, O. (2022). Ergonomic aspects of computer-oriented pedagogical technologies implementation in teaching foreign languages to students of higher education institutions. Educational Technology Quarterly, 2022(1):88–104. https://doi.org/10.55056/ etq.9. Lozova, V. I. (2003). Stratehichni pytannia suchasnoi dydaktyky. Shliakh osvity, (2(28)):11–16. Madzigon, V. M. and Vachevskyi, M. V. (2011). Quality of education system as a factor for high level of professional competences of marketing managers. Actual Problems of Economics, 115(1):69 – 76. Manovich, L. (2001). The Language of New Media. The MIT Press. https://dss-edit.com/plu/Manovich-Lev The Language of the New Media.pdf. Martyniuk, O. O., Martyniuk, O. S., and Muzyka, I. O. (2021). Formation of informational and digital competence of secondary school students in laboratory work in physics. CTE Workshop Proceedings, 8:366–383. https://doi.org/10.55056/cte.294. Ministry of Education and Science of Ukraine (2018). Polozhennia pro Natsionalnu osvitniu elektronnu platformu [Regulation on the National Educational Electronic Platform]. https://zakon.rada.gov.ua/laws/ show/z0702-18#Text. Moiseienko, M. (2020). Didactic model of formation pedagogical universities students’ digital competence. Educational Dimension, 3:347–357. https://doi.org/10. 31812/educdim.v55i0.4379. Moiseienko, M. V., Moiseienko, N. V., and Kiv, A. E. (2020a). Didactic conditions for the formation of digital competence of students of pedagogical universities. Educational Dimension, 2:165–178. https: //doi.org/10.31812/educdim.v54i2.3866. Moiseienko, M. V., Moiseienko, N. V., Kohut, I. V., and Kiv, A. E. (2020b). Digital competence of pedagogical university student: definition, structure and didactical conditions of formation. CTE Workshop Proceedings, 7:60–70. https://doi.org/10.55056/cte.310. AET 2021 - Myroslav I. Zhaldak Symposium on Advances in Educational Technology Morze, N., Buinytska, O., Varchenko-Trotsenko, L., Vasylenko, S., Nastas, D., Tiutiunnyk, A., and Lytvynova, S. (2022). System for digital professional development of university teachers. Educational Technology Quarterly, 2022(2):152–168. https: //doi.org/10.55056/etq.6. Ogneviuk, V., Morze, N., Buinytska, O., and VarchenkoTrotsenko, L. (2020). I am in the digital environment of the university, chapter 5, pages 117–174. I am a student. Borys Grinchenko Kyiv University, Kyiv, 9t edition. Ovcharuk, O. (2020). European strategy for determining the level of competence in the field of digital technologies: a framework for digital competence for citizens. Educational Dimension, 3:25–36. https://doi.org/10. 31812/educdim.v55i0.4381. Ovcharuk, O. and Ivaniuk, I. (2021). A self-assessment tool of the level of digital competence of ukrainian teachers in the context of lifelong learning: the results of an online survey 2021. Educational Dimension, 5:75–88. https://doi.org/10.31812/educdim.4719. Ovcharuk, O. V., Gurzhii, A. M., Ivaniuk, I. V., Kartashova, L. A., Hrytsenchuk, O. O., Vakaliuk, T. A., and Shyshkina, M. P. (2022). The use of digital tools by secondary school teachers for the implementation of distance learning in the context of digital transformation in Ukraine. CTE Workshop Proceedings, 9:16–27. https://doi.org/10.55056/cte.96. Pinchuk, O. and Prokopenko, A. (2021). Actual areas of development of digital competence of officers of the Armed Forces of Ukraine. Educational Dimension, 5:89–108. https://doi.org/10.31812/educdim.4720. Polat, E. S. (2004). Pedagogical technologies for distance learning. Upravlyayushchie Sistemy i Mashiny, (4):62–69. Pometun, O. I. (2003). The youth choses to act – a new approach to youth education. In Metod proektiv: traditsiyi, perspektivi, zhittyevi rezultati, pages 327–333. Prokhorov, O. V., Lisovichenko, V. O., Mazorchuk, M. S., and Kuzminska, O. H. (2022). Implementation of digital technology for student involvement based on a 3d quest game for career guidance and assessing students’ digital competences. Educational Technology Quarterly, 2022(4):366–387. https://doi.org/10. 55056/etq.430. Rakov, S. A. (2005). Mathematical education: a competence approach using ICT. Kharkiv. Ramsky, Y. and Rezina, O. (2005). Study of information search systems of the internet. In Mittermeir, R. T., editor, From Computer Literacy to Informatics Fundamentals, International Conference on Informatics in Secondary Schools - Evolution and Perspectives, ISSEP 2005, Klagenfurt, Austria, March 30 - April 1, 2005, Proceedings, volume 3422 of Lecture Notes in Computer Science, pages 84–91. Springer. https://doi.org/10.1007/978-3-540-31958-0 11. Raven, J. (2020). The Outstanding Properties of the Standard Progressive Matrices Plus test. http://eyeonsociety.co.uk/resources/ Outstanding-properties-of-SPM-PLUS.pdf. Riezina, O. V., Puzikova, A. V., and Kotyak, V. V. (2022). The experience of thesis writing in terms of the methodological students’ digital competence development. Educational Dimension, 7:242–260. https: //doi.org/10.31812/educdim.4715. Robert, I., Martirosyan, L., Gerova, N., Kastornova, V., Mukhametzyanov, I., and Dimova, A. (2016). Implementation of the Internet for Educational Purposes. In Uskov, V. L., Howlett, R. J., and Jain, L. C., editors, Smart Education and e-Learning 2016, volume 59 of Smart Innovation, Systems and Technologies, pages 573–583, Cham. Springer International Publishing. https://doi.org/10.1007/978-3-319-39690-3 51. Rybalko, L., Topuzov, O., and Velychko, L. (2020). Natural science education concept for sustainable development. E3S Web of Conferences, 166:10030. https: //doi.org/10.1051/e3sconf/202016610030. Semerikov, S., Teplytskyi, I., Yechkalo, Y., Markova, O., Soloviev, V., and Kiv, A. (2022). Using spreadsheets as learning tools for neural network simulation. Ukrainian Journal of Educational Studies and Information Technology, 10(3):42–68. https://doi.org/10. 32919/uesit.2022.03.04. Semychenko, V. A. (2004). Problems of motivation of human behavior and activity. Modular psychology course. Module “Orientation” (Lectures, practical exercises, assignments for independent work) (Problemy motivatsii povedeniya i deyatel’nosti cheloveka. Modul’nyy kurs psikhologii. Modul’ “Napravlennost” (Lektsii, prakticheskiye zanyatiya, zadaniya dlya samostoyatel’noy raboty)). Milenium, Kyiv. Slastenin, V. A., Isaev, I. F., Mishhenko, A. I., and Shijanov, E. N. (1997). Pedagogika [Pedagogy]. Shkola-Press, Moscow. Soroko, N. (2021). The augmented reality functions to support the STEAM education at general education institutions. Physical and Mathematical Education, 29(3):24–30. https://doi.org/10.31110/ 2413-1571-2021-029-3-004. Spivakovsky, A. V., Petukhova, L. Y., Omelchuk, S. A., Spivakovska, Y. A., Kotkova, V. V., and Yurchuk, Y. Y. (2022). The Evolution of the Information and Educational Environment in the Context of the Theory of Generational Development. In Semerikov, S., Osadchyi, V., and Kuzminska, O., editors, Proceedings of the 1st Symposium on Advances in Educational Technology - Volume 1: AET, pages 287– 299. INSTICC, SciTePress. https://doi.org/10.5220/ 0010923800003364. Spivakovsky, O. V., Lvov, M. S., and Kravtsov, H. M. (2013). Innovatsiini metody upravlinnia informatsiinymy aktyvamy vyshchoho navchalnoho zakladu (Innovative methods of management of information assets of the university. Kompiuter u shkoli ta simi, 3:3– 7. Stommel, J. (2014). Critical Digital Pedagogy: a Definition. https://hybridpedagogy.org/ critical-digital-pedagogy-definition/. Sultanova, L., Khomych, L., Tsiuniak, O., and Romaniuk, O. (2021). Structural and functional model of developing pedagogical skills of teachers of economics Didactic Terms of Shaping Pedagogical Universities Students’ Digital Competence in the Process of Teaching Informatics Courses in Master’s degree programmes. SHS Web of Conferences, 104:02013. https://doi.org/10.1051/shsconf/ 202110402013. Sysoieva, S. O. (1998). Pedahohichna tvorchist. Karavela. Teplytskyi, O., Teplytskyi, I., Semerikov, S., and Soloviev, V. (2019). Training future teachers in natural sciences and mathematics by means of computer simulation: a social constructivist approach. arXiv. https://doi.org/ 10.48550/arxiv.1907.09726. Trius, Y. and Sotulenko, O. (2017). Creating a distance learning support system for health professionals based on Moodle. In Automation and computerintegrated technologies in production and education: state, achievements, development prospects: materials All-Ukrainian scientific-practical Internet conference (AKIT-2017), page 259–261, Cherkasy. ChNU B. Khmelnytsky. Vakaliuk, T., Spirin, O., and Kontsedailo, V. (2021a). Criteria for selecting open web-oriented technologies for teaching the basics of programming to future software engineers. Educational Technology Quarterly, 2021(1):3. https://doi.org/10.55056/etq.16. Vakaliuk, T., Spirin, O., and Kontsedailo, V. (2021b). Formation of digital competence of CS bachelors in the use of cloud-based learning environments. Educational Technology Quarterly, 2021(3):388–401. https: //doi.org/10.55056/etq.26. Vuorikari, R., Punie, Y., Carretero, S., and Van den Brande, L. (2016). DigComp 2.0: The Digital Competence Framework for Citizens. Update Phase 1: The Conceptual Reference Model. Publication Office of the European Union, Luxembourg. https://doi.org/10.2791/11517. Zhaldak, M. I., editor (2012). Otsinyuvannya yakosti prohramnykh zasobiv navchalnoho pryznachennya dlya zahalnoosvitnikh navchalnykh zakladiv [Evaluation of the quality of educational software for general educational institutions]. Pedahohichna dumka, Kyiv. https://lib.iitta.gov.ua/619/. Zhaldak, M. I., Goroshko, Y. V., Vinnychenko, E. F., and Tsybko, G. Y. (2012). Mathematics with a computer: The teacher’s guide. National Dragomanov Pedagogical University, Kyiv, 3 edition. http://erpub.chnpu. edu.ua:8080/jspui/handle/123456789/1523. Ziaziun, I. A. (1989). A teacher for all seasons. Soviet Education, 31(8):38–54. https://doi.org/10.2753/ RES1060-9393310838. Zimnyaya, I. (2021). A psychological analysis of translation as a type of speech activity, volume 3.
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