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Modernization of Professional Training of Electromechanics Bachelors: ICT-based Competence Approach

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dc.contributor.author Модло, Євгеній Олександрович
dc.contributor.author Семеріков, Сергій Олексійович
dc.contributor.author Shmeltzer, Ekaterina O.
dc.date.accessioned 2020-01-01T18:20:03Z
dc.date.available 2020-01-01T18:20:03Z
dc.date.issued 2018
dc.identifier.citation Modlo Ye. O. Modernization of Professional Training of Electromechanics Bachelors: ICT-based Competence Approach / Yevhenii O. Modlo, Serhiy O. Semerikov, Ekaterina O. Shmeltzer // Педагогiка вищої та середньої школи. – 2018. – Випуск 51. – C. 192-223. – DOI : 10.31812/pedag.v51i0.3668 uk_UA
dc.identifier.issn 2304-4470
dc.identifier.uri http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/3587
dc.identifier.uri https://doi.org/10.31812/pedag.v51i0.3668
dc.description 1. Becker, M.: Competence matrix for the sector electronics / electrical engineering. VQTS II — Vocational Qualification Transfer System Leonardo da Vinci — LLP-LdV-TOI-2007-AT-0017, Flensburg. http://www.biat.uni-flensburg.de/biat/Projekte/VQTS-II/WP2- VQTS-Competence-Matrix-Electrician-II_EN.pdf (2009). Accessed 31 Jan 2018. 2. Cabinet of Ministers of Ukraine: Pro derzhavne zamovlennia na pidhotovku fakhivtsiv, naukovo-pedahohichnykh ta robitnychykh kadriv, na pidvyshchennia kvalifikatsii ta perepidhotovku kadriv (pisliadyplomna osvita) dlia derzhavnykh potreb u 2012 rotsi. Kyiv (2012). 3. Criteria for Accrediting Engineering Technology Programs: Effective for Reviews During the 2014–2015 Accreditation Cycle. Incorporates all changes approved by the ABET Board of Directors as of October 26, 2013. ABET, Baltimore (2013). 4. Detail for CIP Code 15.0403. Institute of Education Sciences, National Center for Education Statistics, U. S. Department of Education, Washington. http://nces.ed.gov/ipeds/cipcode/cipdetail.aspx?y=55&cip=15.0403 (2010). Accessed 1 Feb 2018. 5. Dixit, U. S.: Mechatronics Education. In: Davim, J. P. (ed.): Mechanical Engineering Education, pp. 61–106. ISTE, London (2012). 6. Dmuh, G. Ju.: Pedagogicheskie uslovija formirovanija professional’noj kompetentnosti magistrov jelektrotehnicheskogo napravlenija (Pedagogical conditions for the formation of professional competence of masters of electrotechnical direction). Dissertation, Far Eastern Federal University (2010). 7. Dragunova, E. A.: Proektirovanie i realizacija teoreticheskogo obespechenija mnogourovnevoj jelektrotehnicheskoj podgotovki specialistov v vuze (Design and implementation of theoretical support of multi-level electrical engineering training of specialists in the university). Dissertation, Togliatti State University (2000). 8. Fiks, N. P.: Teoreticheskoe obosnovanie sozdanija i opyt primenenija avtomatizirovannogo uchebno-metodicheskogo kompleksa: na primere kursa teoreticheskih osnov jelektrotehniki (Theoretical substantiation of the creation and experience of the application of the automated educational and methodical complex: on the example of the course of theoretical foundations of electrical engineering). Dissertation, Tomsk State University of Control Systems and Radioelectronics (2001). 9. Fraser, C. J., Milne, J. S., Logan, G. M.: An educational perspective on applied mechatronics. Mechatronics. 3 (1), 49–57. (1993). doi: 10.1016/0957-4158(93)90037-3 10. Gamov, A. V.: Razvitie professional’nyh kompetencij studentov na osnove integracii jelektrotehnicheskih disciplin (Development of professional competencies of students on the basis of integration of electrical disciplines). Dissertation, Russian State Vocational Pedagogical University (2008). 11. Hanson, M.: Teaching mechatronics at tertiary level. Mechatronics. 4 (2), 217–225 (1994). doi: 10.1016/0957-4158(94)90045-0 12. Hordiienko, M. H.: Formuvannia umin i navychok samostiinoi roboty z inozemnoiu fakhovoiu literaturoiu u maibutnikh inzheneriv (Formation of skills and abilities of independent work with foreign professional literature from future engineers). Dissertation, Institute of Pedagogical Education and Adult Education of the Academy of Pedagogical Sciences of Ukraine (2008). 13. Human Resource Systems Group Ltd.: Electrical Engineer Job Description. Job Group: Engineering. http://ccjournals.eu /materials/ee.pdf (2013). Accessed 2 Feb 2018. 14. Kashkin, S. N.: Razrabotka modeli professional’no orientirovannogo nepre-ryvnogo tehnologicheskogo obrazovanija budushhego specialista (na primere jelektrotehnicheskogo profilja) (Development of the model of professionally oriented continuous technological formation of the future specialist (on an example of electrotechnical profile)). Dissertation, Voronezh regional institute of advanced studies and retraining of educators (2006). 15. Kotmakova, T. B. Formirovanie lichnostnoj mobil’nosti kak professional’nogo kachestva budushhih specialistov v processe obuchenija v vuze (na primere special’nosti “Jelektricheskij transport zheleznyh dorog”) (The formation of personal mobility as a professional quality of future specialists in the process of training in the university (on the example of the specialty “Electric transport of railways”)). Dissertation, Far Eastern State Transport University (2011). 16. Krylova, T. V.: Naukovi osnovy navchannia matematyky studentiv nematematychnykh spetsialnostei (na bazi metalurhiinykh, enerhetychnykh i elektromekhanichnykh spetsialnostei vyshchoho zakladu tekhnichnoi osvity) (Scientific fundamentals of teaching mathematics students of non-mathematical specialties (on the basis of metallurgical, energetic and electromechanical specialties of the higher institution of technical education)). Dissertation, National Pedagogical Dragomanov University (1999). 17. Lavrenina, A. N.: Sistema professional’no napravlennogo obuchenija fizike studentov jelektrotehnicheskih special’nostej vuza (The system of professionally directed training of physics students of electrical engineering specialties of the university). Dissertation, Togliatti State University (1999). 18. Mazhirina, R. E.: Formirovanie gotovnosti studentov jelektrotehnicheskih special’nostej k provedeniju inzhenernogo jeksperimenta (Formation of readiness of students of electrotechnical specialties for engineering experiment). Dissertation, Orenburg State University (2002). 19. Ministry of Education and Science of Ukraine: Haluzevyi standart vyshchoi osvity Ukrainy HSVOU 6.050702–2014. Osvitnoprofesiina prohrama bakalavra. Haluz znan 0507 Elektrotekhnika ta elektromekhanika. Napriam pidhotovky 6.050702 Elektromekhanika. Kvalifikatsiia 2149.2 Molodshyi inzhener-elektromekhanik (The branch standard of higher education of Ukraine BSHEU 6.050702–2014. Educational and professional bachelor’s program. Branch of knowledge 0507 Electrical engineering and electromechanics. Direction of preparation 6.050702 Electromechanics. Qualification 2149.2 Junior engineer-electromechanic). Kyiv (2014). 20. Ministry of Education and Science of Ukraine: Haluzevyi standart vyshchoi osvity Ukrainy HSVOU 6.050702–2014. Osvitno-kvalifikatsiina kharakterystyka bakalavra. Haluz znan 0507 Elek-trotekhnika ta elektromekhanika. Napriam pidhotovky 6.050702 Elektromekhanika. Kvalifikatsiia 2149.2 Molodshyi inzhener-elektromekhanik (The branch standard of higher education of Ukraine BSHEU 6.050702–2014. Educational and professional bachelor’s characteristic. Branch of knowledge 0507 Electrical engineering and electromechanics. Direction of preparation 6.050702 Electromechanics. Qualification 2149.2 Junior engineer-electromechanic). Kyiv (2014). 21. Motorina, N. P.: Metodika organizacii professional’noj jelektrotehnicheskoj podgotovki sovremennogo inzhenera (Technique of organization of professional electrotechnical training for a modern engineer). Dissertation, Tambov State Technical University (2002). 22. Ontario Ministry of Training, Colleges and Universities: Electromechanical Engineering Technology Program Standard: The approved program standard for all Electromechanical Engineering Technology programs of instruction leading to an Ontario College Advanced Diploma delivered by Ontario Colleges of Applied Arts and Technology (MTCU funding code 61021). Toronto (2003). 23. Pankova, N. G.: Metodika obuchenija jelektrotehnicheskim disciplinam v tehnicheskom universitete s primeneniem informacionnyh tehnologij (Methods of teaching electrical engineering disciplines in a technical university using information technology). Dissertation, Nizhny Novgorod State Technical University n.a. R. E. Alekseev (2004). 24. Pchela, S. A.: Obespechenie preemstvennosti podgotovki specialistov jelektro-tehnicheskogo profilja v bazovoj professional’noj shkole (Ensuring the continuity of the training of electrical specialists in the basic vocational school). Dissertation, Mari State University (2007). 25. Polskii, M. A.: Metodicheskie osnovy sozdanija i primenenija kombinirovannyh didakticheskih interaktivnyh programmnyh sistem po jelektrotehnicheskim disciplinam (Methodical bases for the creation and application of combined didactic interactive software systems in electrotechnical disciplines). Dissertation, Astrakhan state technical university (2006). 26. Potemkina, S. N.: Metodika professional’no napravlennogo obuchenija zadach po fizike studentov jelektrotehnicheskih special’nostej vuzov (Method of professionally directed training of the problems of physics of students of electrotechnical specialties of high schools). Dissertation, Togliatti State University (1999). 27. Roney, M.W.: Electro-mechanical Technology: A Field Study of Electro-mechanical Technician Occupations: Final Report, Part I. U. S. Department of Health, Education and Welfare, Washington (1966). 28. Roney, M.W.: Electromechanical Technology: A Post-High School Technical Curriculum: Final Report, Part II. U. S. Department of Health, Education and Welfare, Washington (1966). 29. Sagdeeva, G. S.: Razvitie intellektual’noj kompetentnosti budushhih specialistov (na primere podgotovki inzhenerov-jelektrikov) (Development of intellectual competence of future specialists (on the example of training of electrician engineers)). Dissertation, Kazan National Research Technological University (2013). 30. Shishchenko, E. V.: Formirovanie professional’nyh kompetencij u studentov tehnicheskih special’nostej na osnove integracii jelektrotehnicheskih disciplin (na primere zheleznodorozhnogo tehnikuma) (Formation of professional competences for students of technical specialties on the basis of integration of electrical engineering disciplines (on the example of a railway technical school)). Dissertation, Samara State Technical University (2005). 31. Sobko, R. M.: Dydaktychni osoblyvosti intehratyvnoho navchannia kompiuternykh tekhnolohii u profesiinii pidhotovtsi elektrykiv (Didactic features of integrative teaching of computer technologies in the professional training of electricians). Dissertation, The Institute of Pedagogy of the National Academy of Pedagogical Sciences of Ukraine (2002). 32. Soloshych, I. O.: Metodyka formuvannia ekolohichnykh znan u maibutnikh inzheneriv-elektromekhanikiv u protsesi navchannia spetsialnykh dystsyplin (Method of formation of ecological knowledge of future engineers-electromechanics in the process of training of special disciplines). Dissertation, Ukrainian Engineering Pedagogics Academy (2006). 33. Vaughan, J., Fortgang, J., Singhose, W., Donnell, J., Kurfess, T.: Using mechatronics to teach mechanical design and technical communication. Mechatronics. 18 (4), 79–186. (2008). doi: 10.1016/j.mechatronics.2008.01.003 34. Vishniakova, L. N.: Poniatiino-modulnaia metodika formirovaniia u studentov professionalnogo elektrotekhnicheskogo myshleniia (Conceptual-modular methodology of students’ formation of professional electrotechnical thinking). Dissertation, Magnitogorsk State University (2004). 35. Wang, Y., Yu, Y., Xie, Ch., Wang, H., Feng, X.: Mechatronics education at CDHAW of Tongji University: Laboratory guidelines, framework, implementations and improvements. Mechatronics. 19 (8), 1346–1352 (2009).
dc.description.abstract Analysis of the standards for the preparation of electromechanics in Ukraine showed that the electromechanic engineer is able to solve complex specialized problems and practical problems in a certain area of professional activity or in the process of study. These problems are characterized by complexity and uncertainty of conditions. The main competencies include social-personal, general-scientific, instrumental, general-professional and specialized-professional. A review of scientific publications devoted to the training of electromechanics has shown that four branches of engineering are involved in the training of electromechanical engineers: mechanical and electrical engineering (with a common core of electromechanics), electronic engineering and automation. The common use of the theory, methods and means of these industries leads to the emergence of a combined field of engineering — mechatronics. Summarizing the experience of electrical engineers professional training in Ukraine and abroad makes it possible to determine the main directions of their professional training modernization. uk_UA
dc.language.iso en uk_UA
dc.publisher Видавничий центр Криворiзького державного педагогiчного унiверситету uk_UA
dc.subject electromechanics uk_UA
dc.subject competencies uk_UA
dc.subject bachelors training program uk_UA
dc.title Modernization of Professional Training of Electromechanics Bachelors: ICT-based Competence Approach uk_UA
dc.type Article uk_UA


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