Psychological and didactic fundamentals of modern educational technologies of visualization
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Keywords

visualization; psychological and didactic fundamentals of the educational process; modern visualization technologies; professional training; educational environment

How to Cite

Psychological and didactic fundamentals of modern educational technologies of visualization. (2023). Pedeutology, 1(1), 36-43. https://doi.org/10.31652/3041-1203-2023(1)-36-43

Abstract

The relevance of the studied issues is that the introduction of modern technologies of visualization of educational information in the educational environment of higher school is a tool for ensuring the quality of professional training. Accordingly, there is a need to determine the psychological and didactic fundamentals of this process in order to use them as efficiently as possible.

The purpose of the given study is to determine the psychological and didactic fundamentals of modern educational technologies of visualization and to formulate practical recommendations for their implementation in the educational process of higher school.

Based on the outlined features of the cognitive activity of modern generation (the ability to quickly switch between different semantic fragments, high speed of information processing, preference for perceiving information in a figurative form, inability to perceive linear information, etc.), the most significant cognitive needs of modern students are characterized. Prospective technologies for visualizing educational information (mind maps, scribing, video scribing, etc.) and methodical features of their use in the process of professional training are characterized. The tasks of modern visualization tools are defined (tool for improving the educational process, concentrated presentation of educational material, provision of the correspondence of educational material corresponds to the psychophysiological characteristics of students and rational organization of educational and cognitive activities of students). The author's experience in the use of modern visualization technologies, which are based on the application of modern software products, in the process of professional training of future specialists has been presented.

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References

Zhytienova, N. V. (2014). Vizualizatsiia navchalnoi informatsii z vykorystanniam servisiv khmarnykh tekhnolohii. [Visualization of educational information using cloud technology services]. Novitni kompiuterni tekhnolohii. XII: spetsvypusk «Khmarni tekhnolohii v osviti». 77–84.

Rysynets, N.O. (2018). Proektni tekhnolohii yak chynnyk rozvytku profesiinykh kompetentsii studentiv yurydychnykh spetsialnostei. [Design technologies as a factor in the development of professional competencies of students of legal specialties]. Naukovi zapysky Vinnytskoho derzhavnoho pedahohichnoho universytetu imeni Mykhaila Kotsiubynskoho. Seriia: Pedahohika i psykholohiia. 56. 174–177.

Rysynets, N. O. (2020). Zastosuvannia innovatsiinykh tekhnolohii z metoiu formuvannia hotovnosti fakhivtsiv z mizhnarodnoho prava do profesiinoi diialnosti. [Application of innovative technologies for the purpose of formation of readiness of specialists in international law for professional activity]. Nova pedahohichna dumka. 3 (103). 65–70. https://doi.org/10.37026/2520-6427-2020-103-3-66-65

Filonenko, O. V., & Baidak, N. V. (2022). Pedahohichna tekhnolohiia vizualizatsii v osviti. [Pedagogical technology of visualization in education]. Naukovi zapysky. Seriia: Pedahohichni nauky. 207. 64–71. https://doi.org/10.36550/2415-7988-2022-1-207-64-71

Arana Martínez, J.M., & Gordillo León, F. (2023). Relationship between emotion regulation and memory in a competitive cued-recall task. Advances in Cognitive Psychology. 19(2). 166-176. https://doi.org/10.5709/acp-0388-5

Buzan, Т. (2002). How to mind maps. Great Britain: Thorsons, 128.

Dembitska, S. V., Kobilansky, O. V., & Pugach, S. S. (2022). Modeling of the process of professional training of specialists in specialty 015 «Vocational education» in institutions of higher education. Alikhan Bokeikhan University Хабаршысы. 3 (54). 116–124. https://doi.org/10.48501/3590.2022.41.35.004

Dmitrenko, N. Ye., Voloshyna, O.V., Kizim, S.S., Mnyshenko, K.V., & Nahorniak, S.V. (2023). Smart education in the prospective teachers’ training. CEUR Workshop. 3364,. 38–53. https://ceur-ws.org/Vol-3364/paper16.pdf

Foryś-Nogala, M. (2021). Cognitive aptitudes and processing of L2 grammar: Exploring the role of rule inferencing skills and working memory. Advances in Cognitive Psychology. 17(4). 310–319. https://doi.org/10.5709/acp-0340-1

Hailikari, T., Virtanen, V., Vesalainen, M., & Postareff, L. (2022). Student perspectives on how different elements of constructive alignment support active learning. Active Learning in Higher Education. 23(3). 217–231. https://doi.org/10.1177/1469787421989160

Kassens-Noor, E., Durst, N., Decaminada, T., & Parcell, J. Experiencing autonomous futures: Engaged learning with next generation technology. Active Learning in Higher Education. 24(1). 21-36 https://doi.org/10.1177/1469787420982546

Kubik, V., Frey, I.-G., & Gaschler, R. (2021). PLAT 20(3) 2021: Promoting Self-Regulated Learning: Training, Feedback, and Addressing Teachers’ Misconceptions. Psychology Learning & Teaching.20(3). 306–323. https://doi.org/10.1177/14757257211036566

Kuzmenko, O., Dembitska, S, Miastkovska, M., Savchenko, I., & Demianenko, V. Onto-oriented Information Systems for Teaching Physics and Technical Disciplines by STEM-environment. International Journal of Engineering Pedagogy (iJEP). 13(2). 139–146. https://doi.org/10.3991/ijep.v13i2.36245

Kuzmenko, O., & Dembitska, S. (2022). Innovative trends in higher education in the context of sustainable development (on the example of physics and technics disciplines). Science and education for sustainable development. Series of monographs Faculty of Architecture, Civil Engineering and Applied Arts University of Technology, Katowice Monograph 50. Publishing House of University of Technology, Katowice, 203–209.

Kuzmenko, O., Rostoka, M., Dembitska, S., Topolnik, Y., & Miastkovska, M. (2021). Innovative and Scientific ECO Environment: Integration of Teaching Information and Communication Technologies and Physics. Challenges for Higher Education. ICL 2021. Lecture Notes in Networks and Systems, 390. Springer, Cham. 29–36. https://doi.org/10.1007/978-3-030-93907-6_4

Matos, P., Pereira, D.R., Albuquerque, P.B., & Santos, F.H. (2020). How Does Performing Demanding Activities Influence Prospective Memory? A Systematic Review. Advances in cognitive psychology. 16(3). 268–290. https://doi.org/10.5709/acp-0302-0

Michinov, N., & Hutain, J. (2023). Displaying the teacher’s slideshow on students’ devices prevents multitasking and promotes engagement during lectures. Active Learning in Higher Education. https://doi.org/10.1177/14697874231176987

Rubinstein, S.L. (1977). Grundlagen der Allgemeinen Psychologie. Berlin: Volk und Wissen, 308.

Tualaulelei, E., Burke, K., Fanshawe, M., & Cameron, C. (2022). Mapping pedagogical touchpoints: Exploring online student engagement and course design. Active Learning in Higher Education. 23(3). 189–203. https://doi.org/10.1177/1469787421990847

Zhang, Y., Xu, K., Pan, Y., Pi, Z., & Yang, J. (2023). The effects of segmentation design and drawing on video learning: A mediation analysis. Active Learning in Higher Education. https://doi.org/10.1177/14697874231180601

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Copyright (c) 2023 Sofiia Dembitska, Iryna Kobylianska, Oleksandr Kobylianskyi, Vitalina Puhach

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