International Journal of Open Information Technologies

A modification of the hybrid intellectual learning environment based on the concept of a knowledge based system of the production type, (analytical component) and neural network technologies for learning scenario planning (a synthetic component) is proposed. Specifically, attention is primarily given to the problem of formalization of production-type knowledge at the conceptual level (expert level) in the form of a solution graph that allows us to describe the fuzzy logic of the learning scenario planning, taking into account the individual characteristics of the learner. At a sufficiently deep level, the relationship between the infological model and the conceptual representation of knowledge in the form of a set of product rules for the analytic component of the learning environment is described. The technique of triggering rules (activation of associated events) in the process of logical inference is designed with taking into account the need to provide information to the user, testing the level of its assimilation and determining the outcome of the event. Two-level representation of events (compact and detailed) is proposed to provide a certain flexibility to the system. In terms of modification of the synthetic component of the learning environment to a more detailed form, the scheme for transforming the graph of solutions into an equivalent (according to the logic of "reasoning") feed-forward neural network (multi-layer perceptron) is brought. Neuron activation functions are defined which provide tact-by-tact management of the learning process and fixing its current state in the working memory of the intellectual learning environment. It is planned to memorize the full sequence of passed states in order to ensure the possibility of returning to them for a second consideration of the material that has been passed. The inexpediency of controlling any parameters of the neural network due to the lack of such networks is justified (all the functionality of the network is determined by its structure).

Gergel' V.P., Kuzenkov O.A. Razrabotka samostojatel'no ustanavlivaemyh obrazovatel'nyh standartov Nizhegorodskogo gosuniversiteta v oblasti informacionno-kommunikakcionnyh tehnologij // Shkola budushhego. – 2012. – № 4. – P. 100-105.

Kuzenkov O.A., Tihomirov V.V. Ispol'zovanie metodologii "Tuning" pri razrabotke nacional'nyh ramok kompetencij v oblasti IKT // Sovremennye informacionnye tehnologii i IT-obrazovanie. – 2013. – № 9. – P. 77-87.

Kuzenkov O.A., Kuzenkova G.V., Birjukov R.S. Razrabotka fonda ocenochnyh sredstv s ispol'zovaniem paketa Math-Bridge // Obrazovatel'nye tehnologii i obshhestvo. – 2016. – V. 19. – № 4. – P. 465-478.

Kiseleva N.V. Electronic educational resource on qualitative-numeric research of non-autonomous dynamic systems // Sovremennye informacionnye tehnologii i IT-obrazovanie. – 2018. – V. 14. – № 1. – P. 281-292. URL: http://sitito.cs.msu.ru/index.php/SITITO/article/view/364

Grezina A.V., Panasenko A.G. Izuchenie kursa fiziki v institute informacionnyh tehnologij, matematiki i mehaniki NNGU na baze sistemy jelektronnogo obuchenija // Mezhdunarodnyj jelektronnyj zhurnal «Obrazovatel'nye tehnologii i obshhestvo (Educational Technology & Society)» . – 2018. – V. 21. – № 1. – P. 487-493. – ISSN 1436-4522. URL: https://www.j-ets.net/ETS/russian/depository/v21_i1/pdf/19.pdf

Grezina A.V., Panasenko A.G. Use of modern technologies in teaching physics during education of buchelors // Sovremennye informacionnye tehnologii i IT-obrazovanie. – 2018. – V.14. – №1. – P. 293-303. URL: http://sitito.cs.msu.ru/index.php/SITITO/article/view/366

Makarov E. Ispol'zovaniya Java dlya proverki kompetencij po geometricheskomu modelirovaniyu // Mezhdunarodnyj ehlektronnyj zhurnal «Obrazovatel'nye tekhnologii i obshchestvo (Educational Technology & Society)». – 2018. – V. 21. – № 1. – P. 494-505. – ISSN 1436-4522. URL: https://www.j-ets.net/ETS/russian/depository/v21_i1/pdf/20.pdf

Basalin P.D. Organizacija intellektual'noj obuchajushhej sredy s primeneniem novyh informacionnyh tehnologij // Vestnik VGAVT. Mezhvuzovskaja serija «Modelirovanie i optimizacija slozhnyh sistem». – N. Novgorod, 2002. – P. 21-25.

Basalin P.D., Bezruk K.V., Radaeva M.V. Modeli i metody intellektual'noj podderzhki processov prinjatija reshenij: Uchebnoe posobie. – Nizhnij Novgorod: Nizhegorodskij gosuniversitet, 2011. – 129 P.

Basalin P.D., Bezruk K.V. Hybrid intellectual decision making support system architecture // Nejrokomp'jutery: razrabotka, primenenie. – 2012. – № 8. – P. 26-34.

Basalin P.D., Belousova I.I. Interactive learning forms in the educational process // Vestnik Nizhegorodskogo universiteta im. N.I. Lobachevskogo. – 2014. – № 3-4. – P. 18-21.

Basalin P.D., Timofeev A.E. Computer science interactive learning // Prepodavanie matematiki i komp'juternyh nauk v vysshej shkole: materialy Mezhdunar. nauch.-metod. konf. (16-17 May 2017) / nauch. red. E.K.Henner; Perm. gos. nac. issled. un-t. – Perm', 2017. – P. 4-8. URL: https://elis.psu.ru/node/425200

Basalin P.D., Kumagina E.A., Nejmark E.A., Timofeev A.E., Fomina I.A., Chernyshova N.N. IT-education using intellligent learning environments // Sovremennye informacionnye tehnologii i IT-obrazovanie. – 2017. – V. 13. – № 4. – P. 105-111. URL: http://sitito.cs.msu.ru/index.php/SITITO/article/view/312/256

Basalin P.D., Timofeev A.E. Hybrid intelligent decision support system shell // Nauchno-tehnicheskij zhurnal «Sistemy upravlenija i informacionnye tehnologii». – Moskva-Voronezh: Nauchnaja kniga. – 2018. – V. 71. – № 1. – P. 24-28.

Basalin P.D., Timofeev A.E. Obolochka gibridnoj intellektual'noj obuchajushhej sredy produkcionnogo tipa // Educational Technology & Society. – 2018. – V. 21. – № 1. – P. 396-405. – ISSN 1436-4522. URL: http://ifets.ieee.org/russian/depository/v21_i1/pdf/12.pdf

Basalin P.D., Kumagina E.A., Nejmark E.A., Timofeev A.E., Fomina I.A., Chernyshova N.N. Rule-based hybrid intelligent learning environment implementation // Sovremennye informacionnye tehnologii i IT-obrazovanie. – 2018. – V. 14. – № 1. – P. 256-267. URL: http://sitito.cs.msu.ru/index.php/SITITO/article/view/360

Zaharova I.V., Kuzenkov O.A. Experience in implementing the requirements of the educational and professional standards in the field of ict in russian education // Modern information technologies and IT-education. – 2016. – V. 12. – № 3-1. – P. 17-31.

Makarov E., Spitters B. The Picard Algorithm for Ordinary Differential Equations in Coq // Interactive Theorem Proving. – ITP 2013. – V. 7998 / ed. by S. Blazy, C. Paulin-Mohring, D. Pichardie. — Berlin, Heidelberg : Springer, 2013. — P. 463–468. — (Lecture Notes in Computer Science). URL: https://link.springer.com/chapter/10.1007/978-3-642-39634-2_34

Using SEFI framework for modernization of requirements system for mathematical education in Russia / Zakharova, I., Kuzenkov, O., Soldatenko, I., Yazenin, A., Novikova, S., Medvedeva, S., Chukhnov, A. // Proceedings of the 44th SEFI Annual Conference. – 2016. – Tampere, Finland. – P. 15.

Modernization of math-related courses in engineering education in Russia based on best practices in European and Russian universities / Soldatenko, I., Kuzenkov, O., Zakharova, I., Balandin, D., Biryukov, R., Kuzenkova, G., Yazenin, A., Novikova, S. // Proceedings of the 44th SEFI Annual Conference. – 2016. – Tampere, Finland. – P. 16.

Bedny A., Erushkina L., Kuzenkov O. Modernising educational programmes in ICT based on the Tuning methodology // Tuning Journal for Higher Education. – 2014. – V. 1. – № 2. – P. 387. DOI: 10.18543/tjhe-1(2)-2014pp387-404

Alpers B. Das SEFI Maths Working Group "Curriculum Framework Document" und seine Realisierung in einem Mathematik-Curriculum fur einen praxisorientierten Maschinenbaustudiengang // Lehren und Lernen von Mathematik in der Studieneingangsphase. Herausforderungen und Losungsansatze. Wiesbaden, Germany: Springer Spektrum. – 2016. – P. 645-659. URL: https://keynote.conference-services.net/resources/444/5118/pdf/CERME10_0522.pdf

Math-Bridge: Bridging the gaps in European remedial mathematics with technology-enhanced learning / Sosnovsky, S., Dietrich, M., Andrès, E., Goguadze, G., Winterstein, S., Libbrecht, P., Siekmann, J., & Melis, E. // In T. Wassong, D. Frischemeier, P. R. Fischer, R. Hochmuth, & P. Bender (Eds.), Mit Werkzeugen Mathematik und Stochastik lernen – Using Tools for Learning Mathematics and Statistics. – Berlin/Heidelberg, Germany: Springer, 2014. – P. 437-451. DOI: 10.13140/2.1.1142.3367

Delamare F., Winterton J. What is competence? // Human Resource Development Intrnational. – № 8. – 2005. – P. 27-46. DOI: 10.1080/1367886042000338227

Gonzales H., Wangenaar R. Universities contribution to Bologna Process. – Bilbao: University of Deusto, 2008. – 161 P. – ISBN: 97-84-9830-648-4. URL: http://tuningacademy.org/wp-content/uploads/2014/02/Universities-Contribution_EN.pdf

“Teachers” opinions on quality criteria for competency assessment programs / Baartman L.K.J., Bastiaens T. J., Kirschner P.A., van der Vleuten, Cees P.M. // Teaching and Teacher Education. – 2007. – 23(6). – P. 857-867. DOI: 10.1016/j.tate.2006.04.043