Abstract
The article describes learning space and the concept of implementing digital competences in learning systems. The concept includes the following main phases: creating a digital competence framework for different target groups; creation and filling of training modules; choice of individual learning environment; creating a mobile learning system based on your chosen environment. The system should include web and mobile interfaces, appropriately scoped server subsystems and up-to-date dynamic learning content. Functionality of the system should also provide modern concepts of learning and interaction in the following areas: student-student, student-teacher, teacher-teacher. The implementation of the described concept will contribute to the development of digital competences of different target groups: teachers, unemployed persons, persons in need of retraining and so on. Each of these target groups will have its own, customized digital competence system. The feature of this system is its dynamism, since it changes in content and even content type over time as well as its refinement according to the needs of the audience. The implementation of the concept will build a comprehensive roadmap to support the development of digital competences in learning for many years to come. This will enhance the role of interactive communications and digital learning in the community, attract more and more target groups to ICT, and deploy mobile applications in digital competence training. Creating a digital competence concept is part of the Erasmus plus project “dComFra - Digital Competence Framework for Ukrainian Teachers and Other Citizens”. 598236-EPP-1-2018-1-LT-EPPKA2-CBHE-SP. The European Commission’s support for the production of this publication does not constitute an endorsement of the contents, which reflect the views only of the authors, and the Commission cannot be held responsible for any use which may be made of the information contained therein.
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References
Centre for Educational Research and Innovation (OECD): TALIS 2018 Results (Volume I) (Summary in English): Teachers and School Leaders as Lifelong Learners (2018). https://doi.org/10.1787/0d310598-en
Punie, Y.: Learning spaces: an ICT-enabled model of future learning in the Knowledge-based Society. Eur. J. Educ. 42, 185–199 (2007). https://doi.org/10.1111/j.1465-3435.2007.00302.x
Centre for Educational Research and Innovation (OECD): Are the New Millenium Learners Making the Grade? Technology use and educational performance in PISA (2010)
Sefton-Green, J., Nixon, H., Erstad, O.: Reviewing approaches and perspectives on “Digital literacy”. Pedagogies 4(2), 107–125 (2009). https://doi.org/10.1080/15544800902741556
van Deursen, A.J.A.M., van Dijk, J.A.G.M.: Using the internet: skill related problems in users’ online behavior. Interact. Comput. 21(5), 393–402 (2009)
Jones-Kavalier, B., Flannigan, S.L.: Connecting the digital dots: literacy of the 21st century. Teach. Libr. 35(3), 13–16 (2008)
Aviram, R., Eshet-Alkalai, Y.: Towards a theory of digital literacy: three scenarios for the next steps. Eur. J. Open Dist. E-Learn. 1, 1–11 (2006)
Jenkins, H., Clinton, K., Purushotma, P., Robinson, A.J., Weigel, M.: Confronting the Challenges of Participatory Culture: Media Education for the 21st Century, the John D and Catherine T MacArthur Foundation (2006)
European Union: 2010 joint progress report of the Council and the Commission on the implementation of the ‘Education and Training 2010 work programme’. Official Journal of the European Union, (2010/C 117/01) (2010)
Magen-Nagar, N., Shamir-Inbal, T.: National ICT program- a lever to change teachers’ work. Am. J. Educ. Res. 2(9), 727–734 (2014). https://doi.org/10.12691/education-2-9-4
Dimmock, C., Kwek, D., Toh, Y.: Leadership for 21st century learning in Singapore’s highperforming schools. Educ. Res. Innov. Leadersh. 21st Century Learn., 107–134 (2013). https://doi.org/10.1787/9789264205406-en
Thurlings, M., Evers, A.T., Vermeulen, M.: Toward a model of explaining teachers’ innovative behavior - a literature review. Rev. Educ. Res. 85(3), 430–471 (2014). https://doi.org/10.3102/0034654314557949
Peled, Y., Blau, I., Grinberg, R.: Does 1:1 computing in a junior high-school change the pedagogical perspectives of teachers and their educational discourse? Interdisc. J. e-Skills Lifelong Learn. IJELL 11, 257–271 (2015). https://doi.org/10.28945/2311
Gunn, C.: Sustainability factors for e-learning initiatives. Res. Learn. Technol. 18(2), 89–103 (2010). https://doi.org/10.1080/09687769.2010.492848
Dirckinck-Holmfeld, L., Hodgson, V.E., McConnell, D.: Exploring the Theory, Pedagogy and Practice of Networked Learning. Springer, Heidelberg (2012). https://doi.org/10.1007/978-1-4614-0496-5
Blau, I., Shamir-Inbal, T.: Digital competences and long-term ICT integration in school culture: The perspective of elementary school leaders. Educ. Inf. Technol. 22(3), 769–787 (2016). https://doi.org/10.1007/s10639-015-9456-7
Sabaliauskas, T., Bukantaitė, D., Pukelis, K.: Designing teacher information and communication technology competencies’ areas. Vocat. Educ. Res. Reality 12, 152–165 (2006)
Kabakçi, I.: A proposal of framework for professional development of Turkish teachers with respect to information and communication technologies. Turk. Online J. Dist. Educ. (TOJDE) 10(3), 204–216 (2009)
Lei, J.: Digital natives as preservice teachers: What technology preparation is needed? J. Comput. Teach. Educ. 25(3), 87–97 (2009)
Rochanasmita, A.S., Padilla, M.J., Tunhikorn, B.: The development of pre-service science teachers’ professional knowledge in utilizing ICT to support professional lives. Eur. J. Math. Sci. Technol. Educ. 5(2), 91–101 (2009)
Špernjak, A., Šorgo, A.: Perspectives on the introduction of computer-supported real laboratory exercises into biology teaching in secondary schools: teachers as part of the problem. Prob. Educ. 21st Century 14, 135–143 (2009)
So, H.-J., Kim, B.: Learning about problem based learning: student teachers integrating technology, pedagogy and content knowledge. Aust. J. Educ. Technol. 25(1), 101–116 (2009). https://doi.org/10.14742/ajet.1183
Lavonen, J., Juuti, K., Aksela, M., Meisalo, V.: A professional development project for improving the use of information and communication technologies in science teaching. Technol. Pedagogy Educ. 15(2), 159–174 (2006). https://doi.org/10.1080/14759390600769144
Lakkala, M., Ilomäki, L., Kantosalo, A.: Which areas of digital competences are important for a teacher? In: Linked Portal. Brussels: European Schoolnet (2011)
Ilomäki, L., Kantosalo, A., Lakkala, M.: What is digital competence? In: Linked Portal. Brussels: European Schoolnet (2011)
Johannesen, M., Øgrim, L., Giæver, T.H.: Notion in motion: teachers’ digital competence. Nord. J. Dig. Literacy 9(4), 300–312 (2014)
Biloshchytskyi, A., Kuchansky, A., Andrashko, Y., Bielova, O.: Learning space conceptual model for computing games developers. In: 2018 IEEE 13th International Scientific and Technical Conference on Computer Sciences and Information Technologies, CSIT 2018, pp. 97–102 (2018). https://doi.org/10.1109/stc-csit.2018.8526719
Biloshchytskyi, A., Kuchansky, A., Andrashko, Y., Biloshchytska, S., Kuzka, O., Shabala, Y., Lyashchenko, T.: A method for the identification of scientists’ research areas based on a cluster analysis of scientific publications. East.-Eur. J. Enterp. Technol. 5(2(89)), 4–10 (2017). https://doi.org/10.15587/1729-4061.2017.112323
Biloshchytskyi, A., Kuchansky, A., Andrashko, Y., Biloshchytska, S., Kuzka, O., Terentyev, O.: Evaluation methods of the results of scientific research activity of scientists based on the analysis of publication citations. East.-Eur. J. Enterp. Technol. 3(2(87)), 4–10 (2017). https://doi.org/10.15587/1729-4061.2017.103651
Biloshchytskyi, A., Myronov, O., Reznik, R., Kuchansky, A., Andrashko, Y., Paliy, S., Biloshchytska, S.: A method to evaluate the scientific activity quality of HEIs based on a scientometric subjects presentation model. East.-Eur. J. Enterp. Technol. 6(2(90)), 16–22 (2017). https://doi.org/10.15587/1729-4061.2017.118377
Biloshchytskyi, A., Kuchansky, A., Andrashko, Y., Biloshchytska, S., Dubnytska, A., Vatskel, V.: the method of the scientific directions potential forecasting in infocommunication systems of an assessment of the research activity results. In: 2017 IEEE International Conference « Problems of Infocommunications. Science and Technology » , pp. 69–72 (2017). https://doi.org/10.1109/infocommst.2017.8246352
Biloshchytskyi, A., Kuchansky, A., Andrashko, Yu., Biloshchytska, S., Danchenko, O.: Development of infocommunication system for scientific activity administration of educational environment’s subjects. In: 2018 IEEE International Conference « Problems of Infocommunications. Science and Technology » , pp. 369–373 (2018). https://doi.org/10.1109/infocommst.2018.8632036
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Bronin, S., Kuchansky, A., Biloshchytskyi, A., Zinyuk, O., Kyselov, V. (2021). Concept of Digital Competences in Service Training Systems. In: Auer, M.E., Tsiatsos, T. (eds) Internet of Things, Infrastructures and Mobile Applications. IMCL 2019. Advances in Intelligent Systems and Computing, vol 1192. Springer, Cham. https://doi.org/10.1007/978-3-030-49932-7_37
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