IMPORTANCE OF MODERN STEM TECHNOLOGIES FOR TRANSFORMATION OF STEM EDUCATION IN THE GRASSROOTS LEVEL: AN EXPERIMENTAL STUDY IN BHUTAN
DOI:
https://doi.org/10.54417/jaetm.v3i1.104Keywords:
STEM Education, Runlinc, Grassroots, Hands-on, IoTAbstract
The fourth industrial revolution has necessitated the revamping of education relevant for the twenty-first-century knowledge and skills. This work studies the potential of accelerating creative learning and innovation with early exposure and access to modern STEM platforms. Early access is expected to enhance the understanding of the significance of knowledge and skills in science technology engineering, and mathematics platforms. The derivation of understanding of the impact of early access in enhancing STEM education at the grassroots was part of the study. Students and STEM teachers were engaged in learning and experiencing the potential of STEM through hands-on experimental learning. The basic application implementation on automation, the internet of things, and artificial intelligence were used to ensure the learners gets the first-hand experience of STEM technologies. The first part of study indicated the lack of platforms and learning tools has impacted the development of youths’ curiosity about STEM despite being aware of its significance and being a daily customer. It has also adversely affected the ability of youths in expressing their creativity and innovative ideas. On the other hand, youths through organized workshops were introduced to STEM platforms named STEMSEL and runlinc to impart an understanding of automation, IoT, and AI applications. The youth participants could experimentally design, develop and deploy (3D) the basic applications with the minimum number of lines of programming code. The student participants exhibited an increased level of understanding of the significance of STEM in the completion of workshops. Furthermore, the ability to use their creativity and converge into 3D experimentally enabled them to draw a better understanding of STEM technologies. The participants demonstrated their realization of the significance of hands-on learning tools to maximize, accelerate, and motivate themselves into learning STEM after the immersion program i.e. STEM workshops. With this study, promotion and importance of STEM education can be achieved within the region. STEM Education inculcates the hands-on experiential learning of the youths driving towards innovative workforce of the country through technology-based learning.References
V. Demarin and F. Derke, “Creativity—the story continues: An overview of thoughts on creativity,” Mind and Brain, pp. 1–20, 2020.
A. Salau, “Transforming learning through relevant stem education for nigerian students:(work in progress by the social innovation enterprise; carisma4u educational foundation),” in 2019 IEEE Integrated STEM Education Conference (ISEC). IEEE, 2019, pp. 258–265.
P. Srisangngam and C. Dechsura, “Stem education activities development to promote computational thinking’s students,” in 2020 5th International STEM Education Conference (iSTEM-Ed). IEEE, 2020, pp. 103–105.
R. Canek, P. Torres, and O. Rodas, “Encouraging higher education stem careers through robotics competitions,” in 2020 IEEE Integrated STEM Education Conference (ISEC). IEEE, 2020, pp. 1–6.
D. Bues, “Stem education: How best to “illuminate the lamp of learning”,” in 2019 IEEE Integrated STEM Education Conference (ISEC). IEEE, 2019, pp. 402–405.
K. Francis, G. A. Ya´n˜ez, O. Chapman, G. Cherkowski, D. Dodsworth, S. Friesen, D. Gereluk, P. K. Cockett, A. P. P. Babb, M.-C. Shanahan et al., “Forming and transforming stem teacher education: A follow up to pioneering stem education,” in 2018 IEEE Global Engineering Education Conference (EDUCON). IEEE, 2018, pp. 686–693.
J. M. Williams, C. Margherio, E. Litzler, K. Doten-Snitker, S. Mohan, and E. Andrijcic, “Shared vision for change in stem education: Linking research to practice in red projects,” in 2019 IEEE Frontiers in Education Conference (FIE). IEEE, 2019, pp. 1–3.
T. Lertcharoenrit, S. Ugsonkid, S. Kityakarn, P. Pimthong, and R. Munprom, “Stem activity through design based learning in pm 2.5 crisis for high school,” in 2020 5th International STEM Education Conference (iSTEM-Ed). IEEE, 2020, pp. 77–80.
R. Vasiu and D. Andone, “An analyze and actions to increase the quality in stem higher education,” in 2019 IEEE Integrated STEM Education Conference (ISEC). IEEE, 2019, pp. 295–299.
D. Lecorchick and B. Peterson, “Work in progress: Curricular stemification, in-service teacher education, and course development in a semi-periphery country: An american and chinese collaboration,” in 2019 IEEE Global Engineering Education Conference (EDUCON). IEEE, 2019, pp. 1397–1399.
L. Vint et al., “3cs: Creating a culture of creativity,” in DS 36: Proceedings DESIGN 2006, the 9th International Design Conference, Dubrovnik, Croatia, 2006, pp. 1275–1274.
L. Vint, “Fresh thinking drives creativity innovation.” Quick, no. 94, pp. 20–22, 2005.
D. Bilimoria and X. Liang, Gender equity in science and engineering: Advancing change in higher education. Routledge, 2012.
K. Buse, D. Bilimoria, and S. Perelli, “Why they stay: Women persisting in us engineering careers,” Career Development International, 2013.
UNICEF et al., “Towards an equal future: reimagining girls’ education through stem,” 2020.
J. Y. Tienxhi, “The gender gap in malaysian public universities: examining the’lost boys’,” Journal of International and Comparative Education (JICE), pp. 1–16, 2017.
S. Chedup, D. Jayakody, N.K., B. Subba, and H. Hydher, “Performance comparison of arduino ide and runlinc ide for promotion of iot stem ai in education process,” In: Gopi E.S. (eds) Machine Learning, Deep Learning and Computational Intelligence for Wireless Communication. Lecture Notes in Electrical Engineering, Springer, Singapore, vol. 749, 2021.
S. Munirathinam, “Industry 4.0: Industrial internet of things (iiot),” in Advances in computers. Elsevier, 2020, vol. 117, no. 1, pp. 129–164.
A. Tiwary, M. Mahato, A. Chidar, M. K. Chandrol, M. Shrivastava, and M. Tripathi, “Internet of things (iot): Research, architectures and applications,” International Journal on Future Revolution in Computer Science & Communication Engineering, vol. 4, no. 3, pp. 23–27, 2018.
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