Competency Test of Engineering Drawing Design Engineering Using the Online Method
DOI:
https://doi.org/10.22219/dedikasi.v17i1.12018Keywords:
Pandemi COVID-19, Competency Test, workforceAbstract
The COVID-19 pandemic made all teaching and learning processes at SMK YAF-Banjar conducted online, to prevent the widespread transmission of Virus-COVID-19. Students continue to learn at home according to the schedule of lessons from school. The competency test of students' machine design drawings conducted by the school is done online so that the competencies of students in grade 12 meet the educational standards and requirements for graduating students to face the workforce. The purpose of the online competency test is to test students' abilities in terms of machine image design. The method used in the student competency test is to contact every student who studies at SMK YAF. The results and discussion in this competency test the results carried out have not been maximized, due to signal constraints where students live, then from the online competency test 3 criteria are communicated including, 1) knowledge, 2) skills, 3) attitude. From the results of the assessment of knowledge and skills the average value is 75. From this value it must still be improved in terms of knowledge and skills. In the knowledge, criteria is an understanding of SOP and applying quality standards of work, while for skills are the results, including 3D arrangement drawings, detailed drawings of 2D components, projections and cuts, grading, linear and geometrical tolerances, markings of work and roughness prices.Downloads
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F. Naya, J. Jorge, and J. Conesa, “Direct modeling: from sketches to 3d models,” Proc. 1st Ibero-American Symp. Comput. Graph., pp. 109–117, 2002. [2] T. Serdar and R. H. De Vries, “Enhancing spatial visualization skills in engineering drawing course,” ASEE Annu. Conf. Expo. Conf. Proc., vol. 122nd ASEE Annual Conference and Exposition: Making Value for Society, no. 122nd ASEE Annual Conference and Exposition: Making Value for Society, 2015. [3] P. B. Tarigan, “済無No Title No Title,” J. Chem. Inf. Model., vol. 53, no. 9, pp. 1689–1699, 2013. [4] G. Zarza, D. Lugones, D. Franco, and E. Luque, “An innovative teaching strategy to understand high-performance systems through performance evaluation,” Procedia Comput. Sci., vol. 9, pp. 1733–1742, 2012. [5] G. E. Loyd and H. M. Koenig, “Assessment for Learning: Formative Evaluations,” Int. Anesthesiol. Clin., vol. 46, no. 4, pp. 85–96, 2008. [6] I. Literat, “‘A pencil for your thoughts’: Participatory drawing as a visual research method with children and youth,” Int. J. Qual. Methods, vol. 12, no. 1, pp. 84–98, 2013. [7] V. Flusser, Into the Universe of Technical Images Introduction by Mark Poster, vol. 32. 1985. [8] S. Abdulwahab and A. Usman, “Competencies Required by Technical Drawing Teachers in Technical Colleges,” IOSR J. Res. Method Educ., vol. 4, no. 2, pp. 32–37, 2014. [9] The World Health Organization, “Competency and competency assessment,” pp. 142–144, 1999. [10] K. Pekerjaan, U. Dan, P. Rakyat, B. Pengembangan, and S. Daya, “Kementerian pekerjaan umum dan perumahan rakyat badan pengembangan sumber daya manusia,” 2016. [11] SkillMaker, “Workplace safety procedures and instructions,” SkillMaker, pp. 1–17, 2014. [12] C. Reese, “Safe Operating Procedures,” Occup. Saf. and Health, pp. 237–244, 2017. [13] Akerlof, “済無No Title,” J. Chem. Inf. Model., vol. 53, no. 9, pp. 1689–1699, 1970. [14] A. S. Walker and G. Pearson, “Engineering Drawing,” Math. Gaz., vol. 50, no. 373, p. 350, 1966. [15] T. Package and E. Guide, “Apply quality procedures,” vol. 2006, no. June 2006, pp. 64–68, 2007. [16] “Essentials of 3D CAD for 2D users,” pp. 1–29. [17] I. Irawan M. R and A. H.M, “a Case Study of Autocad 2D Engineering Drawing Performance Among Furniture and Product Design (Bfpd) Students,” no. December, pp. 49–57, 2017. [18] F. Remondino and S. El-hakim, “Image-based 3D modelling: A review,” Photogramm. Rec., vol. 21, no. 115, pp. 269–291, 2006. [19] D. Russo, “Competency Measurement Model,” Eur. Conf. Qual. Off. Stat., pp. 1–29, 2016. [20] J. K. Raju, C. Bagrecha, and C. Ravi Kumar, “Competency Mapping in IT Industry-A Road Map for Future,” Adarsh J. Manag. Res., vol. 7, no. 1, p. 20, 2014. [21] N. Smirnov, N. Nedev, J. Koprinarova, and D. B. Dimitrov, “The permittivity in a magnetic field of thin SiOx layers containing Fe and Ni,” Vacuum, vol. 47, no. 9, pp. 1105–1106, 1996. [22] M. Makela, N. Nimkulrat, and T. Heikkinen, “Drawing as a research tool: Making and understanding in art and design practice. Academic and professional practice View project Handling Mind: Embodiment, Creativity and Design View project,” Stud. Mater. Think., vol. 10, no. May 2015, pp. 1–13, 2014. [23] ح. باقری and خ. فرهاد, No Titleتعیین رخسارههای الکتریکی بر اساس رخسارههای رسوبی و گونههای سنگی به کمک روشهای خوشهبندی با استفاده از نگارهای چاه پیمایی و اطلاعات مغزه حفاری در سازندهای کنگان و دالان، میدان گازی پارس جنوبی. . [24] L. W. Foster, “Geometric dimensioning and tolerancing,” SAE Tech. Pap., 1968. [25] Sandvik Coromant, “Threading Aplication Guide,” 2012. [26] M. Rule, “Drawing Indication.” [27] P. P. Kumar, A. M. Potdukhe, M. V. Bitode, and A. B. Belvekar, “Design and manufacturing of double sided automatic chamfering machine,” Int. J. Curr. Eng. Technol., vol. 9, no. 03, pp. 416–420, 2019. [28] “ارک نوین - Surface Roughness,” p. 1994, 1994. [29] P. Scallan, “Drawing interpretation,” Process Plan., pp. 63–108, 2003. [30] F. Inch, “A . Preferred Sizes in Metric .................................................................. R -1 Preferred Sizes in Metric,” pp. 0–25.
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