Pedagogical design of early career guidance in the play activities of older preschool children

Issue 55, 2024

Aida Khassanova, Gulbanu Abitova, Ulbosyn Kiyakbaeva

Received 14.10.2023, Revised 03.02.2024, Accepted 22.03.2024

https://doi.org/10.54919/physics/55.2024.231cp5

Abstract

Relevance. Career guidance within early education is an important aspect of raising a child and developing the skills necessary for further successful career and self-discovery. In this regard, the study of professional orientation in gaming activities using the pedagogical design is a topical issue when educating older preschool children.

Purpose. The purpose of this study was to investigate the aspects of the use of pedagogical design tools during the play activities of older preschool children with early career guidance.

Methodology. In this paper, methods of analysis, comparison, generalization are used.

Results. As a result of the study, it was possible to investigate the aspects of project activities in game forms of early career guidance work with older pupils of preschool educational institutions. The periodization of vocational guidance according to E. Ginzberg was also studied. In this study, the early period of career guidance of the child “fantasy” is disassembled and carefully investigated. The study also presents options for gaming activities in modern preschool education, as elements of early career guidance work with older preschool children. The scientific study highlighted the tools of play activities during early career guidance for older preschool children, namely the use of the Lapbook project, augmented reality and artificial intelligence systems, as well as the MeTycoon game, which includes video materials and information about professions.

Conclusions. The results of this study can be used by researchers and scientists investigating the issue of using pedagogical design in vocational guidance through the game, as well as educators of preschool educational institutions who are engaged in early career guidance.

Keywords: career choice; gamification; information space; education; self-determination

Suggested citation

Khassanova A, Abitova G, Kiyakbaeva U. Pedagogical design of early career guidance in the play activities of older preschool children. Sci Herald Uzhhorod Univ Ser Phys. 2024;(55):2315-2325. DOI: 10.54919/physics/55.2024.231cp5

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References

  1. Curry J, Milsom A. Career and college readiness counseling in P-12 schools. New York: Springer; 2021.
  2. Abildina S, Medieva S, Assilbayeva R, Analbekova K. The role of creativity in the application of pedagogical design by future teachers. Bull Abai Kazakh Natl Pedagog Univ. 2023;77(1):71-85.
  3. Asadchykh OV, Mazepova OV, Moskalenko AM, Poinar LM, Pereloma TS. Cognitive mechanisms of communicative behaviour of representatives of various linguistic cultures of the east. Int J Criminol Soc. 2020;9:2791-2803.
  4. Ginters E, Dimitrovs E. Latent Impacts on Digital Technologies Sustainability Assessment and Development. Adv Intell Syst Comput. 2021;1365:3-13.
  5. Abdullayeva GO, Menglibay I. Career guidance in the digital space: Approaches and strategies. Int J Inf Commun Technol. 2020;1(4):202–8.
  6. Cruz-Eraso AF, Gonzalez-Serrano C. Adaptive model of classification of professions in vocational guidance systems. Rev Fac Ing. 2022;31(61):e14841. DOI: 10.19053/01211129.v31.n61.2022.14841.
  7. Asadchykh OV, Filonova VO, Fedotova YS, Dybska TS, Bukriienko AO. Cognitive features of hieroglyphic writing in the context of perception of culture and language. Asia Life Sci. 2020;22(2):427-440.
  8. Aizstrauta D, Ginters E. Using Market Data of Technologies to Build a Dynamic Integrated Acceptance and Sustainability Assessment Model. Proced Comp Sci. 2016;104:501-508.
  9. Parola A, Di Fuccio R, Marcionetti J, Limone P. Digital games for career guidance: A systematic review using PRISMA guidelines. Behav Inf Technol. 2023;43(3):475–85. DOI: 10.1080/0144929X.2023.2177822.
  10. Mohamed S, Satari NA, Abu Bakar K, Yunus F. Exploring career-related learning activities in the preschool classroom. J Tech Educ Train. 2020;12(3):126–34.
  11. Muslihati M, Hambali IM, Zen EF, Apriani R. Four C’s and HOTs-based career guidance implementation training for BK teachers in vocational schools in Malang city. Suluh Bendang Sci J Community Serv. 2021;21(3):178–85. DOI: 10.24036/sb.01500.
  12. Eigenmann P, Gonon P, Weil M, editors. Opening and Extending Vocational Education. Lausanne: Peter Lang Verlag; 2021. Bonoli L, The origin of vocational guidance in Switzerland: Between promotion of aptitudes and social reproduction; p. 75-97.
  13. Amanbaeva EA, Zhaxylykova NY, Kenbaeva GK. The choice of profession is the basis of vocational guidance. Bull Abai Kazakh Natl Pedagog Univ. 2019;2(62):371–5.
  14. Meluso A, Zheng M, Spires HA, Lester J. Enhancing 5th graders’ science content knowledge and self-efficacy through game-based learning. Comput Educ. 2012;59(2):497–504. DOI: 10.1016/j.compedu.2011.12.019.
  15. Dunwell I, Lameras P, de Freitas S, Petridis P, Star K, Hendrix M, et al. MeTycoon: A game-based approach to career guidance. In: 5th International Conference on Games and Virtual Worlds for Serious Applications (VS-GAMES); 2013 September 11-13; Poole. Poole: IEEE; 2013. P. 1-6.
  16. Setuju, Widowati A, Mariah S, Suyitno S. Project-based blended learning: The innovation of the pandemic era of learning models in vocational high schools. AIP Conf Proc. 2023;2671:050021.
  17. Bhakti, C. P., Farozin, M., Suwarjo, S. A design of blended learning core curriculum based on personalized learning for career readiness. In: Proceedings of the 1st International Conference on Social, Science, and Technology; 2021 November 25; Tangerang. Tangerang: EAI; 2022. DOI: 10.4108/eai.25-11-2021.2318804.
  18. Issabaeva DN, Issabaeva SN, Rakhimzhanova LB. Effective approaches of remote control and assessment of students learning achievements. Bull Abai Kazakh Natl Pedagog Univ. 2020;3(71):183–7.
  19. Hu L, Yuan Y, Chen Q, Kang X, Zhu Y. The practice and application of AR games to assist children’s English pronunciation teaching. Occup Ther Int. 2022;2022:3966740. DOI: 10.1155/2022/3966740.
  20. Faheem I. Career development models: Vocational and counseling implications. Int J Humanit Soc Sci Stud. 2017;4(2):139–48. DOI: 10.29032/IJHSSS.v4.i2.2017.139-148.
  21. Dudi G. Career development guidance model (study of development of a career development guidance model for deaf students in SLB-B Bandung). Electrans. 2012;1(1):38–47. DOI: 10.23887/bisma.v5i1.34877.
  22. Masanovic B, Gardasevic J, Arifi F. Relationship between foot length measurements and standing height: A prospective regional study among adolescents in southern region of Kosovo. Sport Mont. 2018;16(2):27-31.
  23. Savickas ML. Career counseling. Washington: American Psychological Association; 2019.
  24. Kochkarev D, Azizov T, Galinska T. Bending deflection reinforced concrete elements determination. MATEC Web Conf. 2018;230:02012.
  25. Kerimkhulle S, Obrosova N, Shananin A, Tokhmetov A. Young Duality for Variational Inequalities and Nonparametric Method of Demand Analysis in Input–Output Models with Inputs Substitution: Application for Kazakhstan Economy. Mathem. 2023;11(19):4216.
  26. Kariy II, Farafonova NN. Lapbook as an innovative form of early career guidance for preschool children. Pedagog Sci Pract. 2021;4(34):117–20.
  27. Cherniha R, Serov M. Nonlinear systems of the Burgers-type equations: Lie and Q-conditional symmetries, Ansätze and solutions. J Mathem Analys Applicat. 2003;282(1):305-328.
  28. Dolhopolov S, Honcharenko T, Dolhopolova SA, Riabchun O, Delembovskyi M, Omelianenko O. Use of artificial intelligence systems for determining the career guidance of future university student. In: 2022 International Conference on Smart Information Systems and Technologies (SIST); 2022 April 28-30; Nur-Sultan. Nur-Sultan: IEEE; 2022. P. 1-6.
  29. Salah J. Note on the modified caputo’s fractional calculus derivative operator. Far East J Mathem Sci. 2016;100(4):609-615.
  30. Kerimkhulle S, Dildebayeva Z, Tokhmetov A, Amirova A, Tussupov J, Makhazhanova U, Adalbek A, Taberkhan R, Zakirova A, Salykbayeva A. Fuzzy Logic and Its Application in the Assessment of Information Security Risk of Industrial Internet of Things. Symm. 2023;15(10):1958.
  31. Barlybayev A, Sankibayev A, Kadyr Y, Amangeldy N, Sabyrov T. Predicting Used-Vehicle Resale Value in Developing Markets: Application of Machine Learning Models to the Kazakhstan Car Market. Ing Syst Inf. 2023;28(5):1237-1246.
  32. Sylejmani B, Maliqi A, Gontarev S, Haziri S, Morina B, Durmishaj E, Bajrami A. Anthropometric characteristics and physical performance of young elite kosovo soccer players. Int J Morphol. 2019;37(4):1429-1436.
  33. Gallagher A, Thordarson K. Design thinking for school leaders: Five roles and mindsets that ignite positive change. Alexandria: ASCD; 2018.
  34. Maureen IY, van der Meij H, de Jong T. Supporting literacy and digital literacy development in early childhood education using storytelling activities. Int J Early Childhood. 2018;50:371–89. DOI: 10.1007/s13158-018-0230-z.
  35. Sasmita H, Yusuf AM, Iswari M, Afdal. Career development in children (childhood): Literature review. Bisma J Counsel. 2021;5(1):36–43. DOI: 10.23887/bisma.v5i1.34877.
  36. Wijaya AD. The level of understanding career of low grades elementary school. E-J Guid Counsel. 2017;3(6):239–51.
  37. Cinamon RG, Dan O. Parental attitudes toward preschool children’ career education: A mixed-method study. J Career Dev. 2010;37(2):519–40. DOI: 10.1177/0894845309357050.
  38. Shipepe A, Peters A. Designing an interactive career guidance learning system using gamification. In: AfriCHI’18: Proceedings of the Second African Conference for Human Computer Interaction: Thriving Communities; 2018 December 3-7; Windhoek. New York: Association for Computing Machinery; 2018. P. 1-4. DOI: 10.1145/3283458.3283481.
  39. Knight JL. Preparing elementary school counselor to promote career development. J Career Dev. 2015;42(2):75–85. DOI: 10.1177/0894845314533745.
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