COMPUTATIONAL THINKING ABILITY THROUGH ROBOTICS AND CONSTRUCTIVISM APPROACH SANALYSIS
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G. Chen, J. Shen, L. Barth-cohen, S. Jiang, X. Huang, and M. Eltoukhy, “Computers & Education Assessing elementary students ’ computational thinking in everyday reasoning and robotics programming,” Comput. Educ., vol. 109, pp. 162–175, 2017.
K. Jona et al., “Embedding Computational Thinking in Science , Technology , Engineering , and Math ( CT-STEM ),” no. 2002, pp. 1–5, 2011.
S. Atmatzidou and S. Demetriadis, “Advancing students ’ computational thinking skills through educational robotics : A study on age and gender relevant differences,” Rob. Auton. Syst., vol. 75, pp. 661–670, 2016.
A. Eguchi, “RoboCupJunior for promoting STEM education , 21st century skills , and technological advancement through robotics competition,” Rob. Auton. Syst., vol. 75, pp. 692–699, 2016.
D. X. Sarah, D. X. Gerald, and D. X. X, “Robotic Curriculum Enhances Minimally Invasive General Surgery Residents ’ Education,” J. Surg. Educ., pp. 0–5, 2018.
C. Galindo, “Computers & Education A LEGO Mindstorms NXT approach for teaching at Data Acquisition , Control Systems Engineering and Real-Time Systems undergraduate courses,” Comput. Educ., vol. 59, no. 3, pp. 974–988, 2012.
M. U. Bers, L. Flannery, E. R. Kazakoff, and A. Sullivan, “Computers & Education Computational thinking and tinkering : Exploration of an early childhood robotics curriculum,” Comput. Educ., vol. 72, pp. 145–157, 2014.
S. Adak, “Effectiveness of constructivist approach on academic achievement in science at secondary level,” vol. 12, no. 22, pp. 1074–1079, 2017.
S. Cristea, “The fundaments of constructivist pedagogy,” Procedia - Soc. Behav. Sci., vol. 180, no. November 2014, pp. 759–764, 2015.
E. Akpınar, B. Aydo, and D. Erol, “Developing a scale aiming at determining the applications of constructivist approach in science course,” vol. 1, pp. 2795–2798, 2009.
C. Okoli and K. Schabram, “A Guide to Conducting a Systematic Literature Review of Information Systems Research,” Sprouts Work. Pap. Informations Syst., vol. 10, no. 26, p. 49, 2010.
J. Webster and R. Watson, “Analyzing the past to prepare for the future: Writing A Literature Review,” MIS Q., vol. 26, no. 2, pp. xii–xxvii, 2002.
J. F. Rath, D. M. Langenbahn, D. Simon, R. L. Sherr, J. Fletcher, and L. Diller, “The construct of problem solving in higher level neuropsychological assessment and rehabilitation ଝ,” J. Elsevier Arch. Clin. Neuropsychol., vol. 19, no. 1, pp. 613–635, 2004.
I. García, E. Guzmán-ramírez, and C. Gonzalez-rojas, “A constructivist approach for implementing and evaluating algorithms in a machine vision course at the undergraduate level,” Procedia - Soc. Behav. Sci., vol. 93, pp. 1461–1466, 2013.
J. El Asmar and C. Mady, “A Constructivist Approach to Design Teaching at the Postgraduate Level : The Case of an Interdisciplinary Design Programme at,” Procedia - Soc. Behav. Sci., vol. 93, pp. 531–538, 2013.
B. Pribadi, “Pendekatan Konstruktivist dalam Kegiatan Pembelajaran.”
D. Jin, J. Chen, C. Richard, and J. Chen, “Model-driven online parameter adjustment for zero-attracting LMS R,” Signal Processing, vol. 152, pp. 373–383, 2018.
A. M. Pinto-llorente, S. C. Martín, M. C. González, and F. J. García-peñalvo, “Developing Computational Thinking via the Visual Programming Tool : Lego Education WeDo,” 2016.
D. Göktürk, “The role of constructivist approach on creativity in primary school music curriculum in the Republic of Turkey,” vol. 2, no. 2, pp. 3075–3079, 2010.
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