Geodesic
Structural-hierarchical didactic model of e-learning
Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ Vyčislitelʹnaâ matematika i informatika, Tome 8 (2019) no. 4, pp. 56-83 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

This article describes the original Structural-Hierarchical Didactic (SHD) model of e-learning. The model is based on a four-level methodological knowledge base. The first level includes a set of electronic educational encyclopedias in various fields of knowledge. The second level includes e-learning courses. The model supports the structuring of e-learning course on didactic components (vertical structuring) and levels of detail (horizontal structuring). The third level includes a set of syllabuses. The fourth level includes a set of a federal state educational standard of higher education (FSES HE). A distinctive feature of the SHD model is the division of educational objects into didactic components. This will allow, firstly, to automatically verify the didactic completeness of the electronic training course. Secondly, to include parts of one course in another without losing the didactic structure. Thirdly, to select a separate didactic layer from the electronic training course and, based on it, automatically generate specialized training materials: lecture notes, task collections, exam tests, etc. The basic operations of the SHD model are described, based on which analysis algorithms are proposed syllabuses and e-learning courses. In conclusion, a brief summary of the results and directions for further research is given.
Keywords: e-learning, course, e-learning model, learning object, didactic structure, SHD model. 
@article{VYURV_2019_8_4_a4,
     author = {N. S. Silkina and L. B. Sokolinskiy},
     title = {Structural-hierarchical didactic model of e-learning},
     journal = {Vestnik \^U\v{z}no-Uralʹskogo gosudarstvennogo universiteta. Seri\^a Vy\v{c}islitelʹna\^a matematika i informatika},
     pages = {56--83},
     year = {2019},
     volume = {8},
     number = {4},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/VYURV_2019_8_4_a4/}
}
TY  - JOUR
AU  - N. S. Silkina
AU  - L. B. Sokolinskiy
TI  - Structural-hierarchical didactic model of e-learning
JO  - Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ Vyčislitelʹnaâ matematika i informatika
PY  - 2019
SP  - 56
EP  - 83
VL  - 8
IS  - 4
UR  - http://geodesic.mathdoc.fr/item/VYURV_2019_8_4_a4/
LA  - ru
ID  - VYURV_2019_8_4_a4
ER  - 
%0 Journal Article
%A N. S. Silkina
%A L. B. Sokolinskiy
%T Structural-hierarchical didactic model of e-learning
%J Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ Vyčislitelʹnaâ matematika i informatika
%D 2019
%P 56-83
%V 8
%N 4
%U http://geodesic.mathdoc.fr/item/VYURV_2019_8_4_a4/
%G ru
%F VYURV_2019_8_4_a4
N. S. Silkina; L. B. Sokolinskiy. Structural-hierarchical didactic model of e-learning. Vestnik Ûžno-Uralʹskogo gosudarstvennogo universiteta. Seriâ Vyčislitelʹnaâ matematika i informatika, Tome 8 (2019) no. 4, pp. 56-83. http://geodesic.mathdoc.fr/item/VYURV_2019_8_4_a4/

[1] B. F. Skinner, “The science of learning and the art of teaching. Programmed study abroad: Col. of Articles / Ed. by I.I. Tikhonov”, M.: Higher school, 1968, 32–46

[2] N. A. Crowder, “On the differences between linear and branched programming. Programmed study abroad: Col. of Articles / Ed. by I.I. Tikhonov”, M.: Higher school, 1968, 58–67

[3] D. C. Engelbart, “Toward Augmenting the Human Intellect and Boosting our Collective IQ”, Communications of the ACM, 1995, 30–33 | DOI

[4] 1484.11.1. Standard for Learning Technology — Data Model for Content Object Communication, 2004

[5] SCORM 2004 4th Edition. Run-Time Environment (RTE). Advanced Distributed Learning (ADL) Initiative, 2009

[6] SCORM 2004 4th Edition. Content Aggregation Model (CAM). Advanced Distributed Learning (ADL) Initiative, 2009

[7] J. D. Novak, A. J. Canas, The theory underlying concept maps and how to construct them. Technical Report IHMC CmapTools 2006–01 Rev 2008–01. Florida Institute for Human and Machine Cognition, USA. 2008 } {\tt http://cmap.ihmc.us/docs/theory-of-conceptmaps

[8] A. V. Solovov, “Mathematical models of the content and processes of e-learning”, Telecommunications and informatization of education, 2006, no. 4, 20–37

[9] SCORM 2004 4th Edition. Sequencing and Navigation (SN).Advanced Distributed Learning (ADL) Initiative, 2009

[10] L. De-Marcos, C. Pages, J. J. Martinez, J. A. Gutierrez, “Competency-Based Learning Object Sequencing Using Particle Swarms”, Proceedings of 19th IEEE International Conference on Tools with Artificial Intelligence (ICTAI 2007 (Oct., 29–31, 2007)), Vol. 2. P. 111–116, DOI, 111–116 | DOI

[11] IEEEE, 1484.20.1. Standard for Learning Technology — Data Model for Reusable Competency Definitions, 2007

[12] T. Kristensen, Y. Lamo, K. R. Hinna, G. O. Hole, “Dynamic Content Manager — A New Conceptual Model for E-Learning”, Proceedings of the International Conference on Web Information Systems and Mining, WISM ‘09. Springer-Verlag, Berlin, Heidelberg, 2009. P, 499–507 | DOI

[13] P. A. Bryzgalov, “System “Areola” — a software shell for creating electronic encyclopedias”, Computational methods and programming, 6:2 (2005), 22–26

[14] P. A. Bryzgalov, V. V. Voevodin, Vl. V. Voevodin, “On some problems of computerization of knowledge”, Scientific service on the Internet: Proceedings of the the All-Russian Scientific Conference, All-Russian Scientific Conference (Novorossiysk, September, 18, 2000), Publishing House of Moscow State University, Moscow, 2000 (Russian)

[15] W. Cunningham, B. Leuf, The Wiki Way: Quick Collaboration on the Web, Addison-Wesley Professional, 2001, 464 pp.

[16] G. S. Kurganskaya, “A knowledge representation model and a system of differentiated learning through the Internet”, Bulletin of the Chelyabinsk Scientific Center, 2000, no. 2, 84–88

[17] G. S. Kurganskaya, “Cloud technologies of Internet education based on the KFS knowledge representation model”, Bulletin of the Buryat State University, 2013, no. 9, 69–75

[18] G. S. Kurganskaya, “The development of adaptive learning methods: the experience of using HECADEM”, Internet and modern society: Proceedings of the XI All-Russian Joint Conference IMS–2008 (St. Petersburg, Petersburg, October, 28–30, 2008), SPb.: Publishing House of Sankt Petersburg University, 65–67

[19] A. V. Solovov, “Mathematical modeling of the content, navigation and e-learning processes in the context of international standards and specifications”, Proceedings of the All-Russian Scientific and Practical Conference with International Participation “Information Technologies in Ensuring a New Quality of Higher Education”, Information Technologies in Ensuring a New Quality of Higher Education (Moscow, NUST “MISiS”, April, 14–15, 2010), Research Center for the Problems of Quality of Training of Specialists, Moscow, 2010, 52

[20] B. A. Solovov, Proektirovanie kompyuternykh sistem uchebnogo naznacheniya, SGAU, Samara, 1995, 138 pp.

[21] L. De-Marcos, C. Pages, J. J. Martinez, J. A. Gutierrez, “Competency-Based Learning Object Sequencing Using Particle Swarms // Proceedings of 19th IEEE International Conference on Tools with Artificial Intelligence ICTAI 2007 (Oct., 29–31, 2007)”, Vol, 2, 29–31 | DOI

[22] V. V. Kalitina, “Electronic encyclopedia as a tool of increasing the level of memorization of educational material. Bulletin of the Krasnoyarsk State Pedagogical University named after V.P”, Astafieva, 2013, no. 1, 111–114

[23] V. V. Voevodin, “An open encyclopedia of the properties of algorithms AlgoWiki: from mobile platforms to exaflops supercomputer systems”, Computational methods and programming: new computing technologies, 16:1 (2015), 99–111 | DOI

[24] V. Voevodin, A. Antonov, J. a. Dongarra, “AlgoWiki: an open encyclopedia of parallel algorithmic features”, Supercomputing Frontiers and Innovations, 2015 | DOI

[25] N. S. Silkina, L. B. Sokolinsky, “Survey of Adaptive E-learning Models. Bulletin of the South Ural State University”, Series: Computational Mathematics and Software Engineering, 5:4 (2016), 61–76 | DOI

[26] N. S. Silkina, L. B. Sokolinsky, “E-learning models and standards. Bulletin of the South Ural State University”, Series: Computational Mathematics and Software Engineering, 3:4 (2014), 5–35 | DOI

[27] Order of the Ministry of Education and Science of Russia “On the approval of the organization and implementation of educational activities for educational programs of higher education — undergraduate programs, specialty programs, master's programs” dated December 19, 2013. no. 1367. } {\tt http://минобрнауки.рф/документы/5242

[28] I. V. Novgorodtseva, Pedagogy with the methodology of teaching special disciplines, M.: FLINT, 2011, 378 pp.

[29] National pedagogical encyclopedia. } {\tt http://didacts.ru/

[30] A. I. Rudskoy, A. I. Borovkov, P. I. Romanov, O. V. Kolosova, General professional competences of a modern Russian engineer. Higher education in Russia, 2018. no. 2. pp. 5–18. } {\tt https://vovr.elpub.ru/jour/article/download/1267/1072

[31] A. G. Sergeev, Competence and competencies: monograph, Publishing house Vladimir State University, Vladimir, 2010, 107 pp.

[32] T. Berners-Lee, Uniform Resource Locators “URL”: A Syntax for the Expression of Access Information of Objects on the Network. World Wide Web Consortium. 1994 } {\tt https://www.w3.org/Addressing/URL/url-spec.txt

[33] IEEE 1484.12.1. Draft Standard for Learning Object Metadata. 2002 } {\tt http://ltsc.ieee.org/wg12/files/LOM_1484_12_1_v1_Final_Draft.pdf

[34] IEEE, 1484.11.2. Standard for Learning Technology — ECMA Script Application Programming Interface for Content to Runtime Services Communication, 2003