UDC 378
https://doi.org/10.20339/AM.07-23.059
Sergey P. Stolyarov, Cand. Sci. (Engineering), Docent, Head of Department of Marine Internal Combustion Engines and Diesel Propulsion Plants at St. Petersburg State Marine Technical University, Author ID RSCI: 443666
Nikolay N. Sluchaninov, Cand. Sci. (Engineering), Associate Professor of the Department of General Technical Disciplines at Military Institute (Railway Troops and Military Communications) of the Military Academy of Logistics named after Army General A.V. Khrulev, Author ID RSCI: 643756
Andrey S. Stolyarov,* Senior Lecturer of Department of Marine Internal Combustion Engines and Diesel Propulsion Plants at St. Petersburg State Marine Technical University, Author ID RSCI: 229999, e-mail: tkr14@ya.ru
The article describes the experience of using interdisciplinary end-to-end course design in St. Petersburg State Marine Technical University (SMTU). End-to-end course design is an element of the concept of competency formation in an innovative educational environment of a technical university.
The expediency of using an interdisciplinary end-to-end course project for educational programs in engineering is substantiated. The basis of the methodology is historicism and course projects and term papers. Course projects and term papers in different academic disciplines are united by a common goal and project task.
There is a long-term practice of applying an interdisciplinary end-to-end course project in SMTU. The developed method increases the comprehensibility of the studied information, mobilizes creativity, and contributes to professional maturation. In addition, active students make scientific publications and reports at conferences based on their work.
The main problem in the implementation of educational programs based on the end-to-end course project is a significant increase in the load on teachers. The reasons for the increase in workload are individual assignments, an increased number of course projects and papers, and the expansion of engineering tasks. Additional difficulties are caused by the individual redistribution of the amount of work between various term papers in order to provide opportunities for proactive student research.
Keywords: educational program, course project, independent work of a student, state final certification.
References
1. Guzanov, B.N., Morozova, N.V. Organization of independent work of university students in the context of the implementation of a multi-level model of education: monograph. Ekaterinburg: RSVPU, 2014. 157 p.
2. Solovova, N.V., Ga’kin, V.P. Organization and control of independent work of students: guidelines. Samara: Univers-grupp, 2006, 15 p.
3. Agibova, I.M., Kulikova, T.A. Independent work of students at the university: Types, forms, classifications. Vestnik Stavropol’skogo gosudarstvennogo universiteta. 2010. No. 6. P. 221–227.
4. Berdennikova, N.G., Medencev, V.I., Panov, N.I. Organizational and methodological support of the educational process at the university: a textbook for universities. St. Petersburg: D.A.R.K., 2006. 207 p.
5. Denisova, E.A., Nikolaeva, E.F., Nikolaeva, P.Yu. Organization of independent work of students: electronic textbook. Tolyatti, Togliatti State University, 2016. 1 СD-ROM.
6. Kuharchuk, O.V. Organization of independent work of university students in the context of the implementation of the Federal State Educational Standard of Higher Education. In: Obrazovanie v sovremennom mire [Education in the modern world]: coll. papers. Saratov, Saratov University Press, 2018. Iss. 13. P. 40–45.
7. Official website of the St. Petersburg State Marine Technical University: Advertising booklet of the specialization “Marine main engines”, URL: http://abit.smtu.ru/file/edu_prog_file/249/249.pdf (accessed on: 30.12.2022).
8. Dybina, O V., Shchetinina, V.V. Control of independent work of students at the university. Teoriya i praktika obshchestvennogo razvitiya [Theory and practice of social development]. 2015. No. 4. P. 122–129.
9. Stolyarov, S.P. Academic disciplines of historical and technical orientation as a factor in the educational process in the preparation of engineers and bachelors for shipbuilding and ship engineering. In: Science and Technology: Questions of History and Theory. Proceedings of the XL International Annual Scientific Conference of the St. Petersburg Branch of the Russian National Committee for the History and Philosophy of Science and Technology of the Russian Academy of Sciences “Scientific St. Petersburg: to the 295th Anniversary of the Russian Academy of Sciences”. Iss. XXXV, St. Petersburg, St. Petersburg branch of the Federal State Budgetary Institution of Science of the S.I. Vavilov Institute of the History of Natural Science and Technology of Russian Academy of Sciences. 2019. 328 p. P. 183–186. (in Rus.)
10. Stolyarov, S.P., Stolyarov, A.P. Methodological and technological problems of distance learning at the St. Petersburg State Marine Technical University in 2020. Proceedings of the Krylovsky State Scientific Center. 2021. Special Issue No. 1. 362 p. P. 42–44.
11. Veprinyak, I.A., Timoshchuk, E.S., Kudrin, A.A., Sluchaninov, N.N. System-synergetic approach to the organization of the educational process of a military university. In: Special equipment and technology of transport. Coll. of scientific articles of the Military Institute (Railway Troops and Military Communications) of the Military Academy of Logistics n.a. Army General A.V. Khrulev, St. Petersburg. Peterhof, 2019. No. 1 (39). Pt. 2. P. 182–185.
12. Sluchaninov, N.N., Fedorov, I.V. Problem learning. Examples and results of application in the Military Institute (Railway Troops and Military Communications) of the Military Academy of Logistics n.a. Army General A.V. Khrulev. In: Special equipment and technology of transport. Coll. of scientific articles the Military Institute (Railway Troops and Military Communications) of the Military Academy of Logistics n.a. Army General A.V. Khrulev, St. Petersburg. Peterhof, 2021. Iss. 9. P. 240–245.