AUTOC-AR: A Car Design and Specification as a Work Safety Guide Based on Augmented Reality Technology
Subandi Subandi, Head of Informatics Engineering Study Program, Politeknik Negeri Banjarmasin, Indonesia, Indonesia
Amran Mohamed, Director of Research and Technology Development, EON Reality PTE LTD., Singapore
Abstract
The development of Augmented Reality (AR) technology until now continues to increase. Utilization of AR has been used in various aspects of life, including aspects of education, is no exception for automotive engineering education. In recent years, a variety of ideas and the latest innovations about automotive by utilizing AR technology began to boom, especially in the area of car design aimed at car production companies. At the car production stage, human resources skilled in understanding the design and specifications of car features are required. The seeds of educated human resources start from vocational students in automotive engineering expertise programs. This study aims to develop and implement an application called AUTOC-AR that functions to help and facilitate students in learning automotive engineering skills in vocational schools and supporting safety in the workplace. The research methodology consisted of a literature review and excavation of problems and needs, solution recommendations, application development, testing, results and discussion, conclusions and future work. The Extreme Programming (XP) model was used as a development method. Marker-based tracking was used as a detection approach. As many as 25 students as end-users were involved to use AUTOC-AR. The result is that all features in the AUTOC-AR application function properly based on the expected specifications. Non-functional testing has been carried out by adopting a user experience approach with a final average value of 4.83 with a percentage of 96.6%.
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R. Azuma, “A Survey of Augmented Reality,” Presence Teleoperators Virtual Environ., vol. 6, no. 4, 1997.
Z. Feng, B. D. Henry, and B. Mark, "Trends in Augmented Reality Tracking, Interaction, and Display: A Review of Ten Years of ISMAR," Nanyang Technological University, Singapore, 2008.
H. Tolle, A. Pinandito, E. M. A. Jonemaro, and K. Arai, “Virtual Reality Game Controlled with User’s Head and Body Movement Detection Using Smartphone Sensors,” ARPN J. Eng. Appl. Sci., vol. 10, no. 2, pp. 9776–9782, 2015.
A. A. Syahidi, H. Tolle, A. A. Supianto, and K. Arai, "BandoAR: Real-Time Text-Based Detection System Using Augmented Reality for Media Translator Banjar Language to Indonesian with Smartphone," in Proceeding of the 5th IEEE ICETAS, 2018, pp. 1–6.
A. Gladston and A. Duraisamy, “Augmented Reality Indoor Navigation Using Handheld Devices,” Int. J. Virtual Augment. Real., vol. 3, no. 3, pp. 1–17, 2019.
A. A. Syahidi, H. Tolle, A. A. Supianto, and K. Arai, “AR-Child: Analysis, Evaluation, and Effect of Using Augmented Reality as a Learning Media for Preschool Children,” in Proceeding of the 5th IEEE ICCED, 2019, pp. 1–6.
P. B. Herlandy, J. A. Amien, P. Pahmi, and A. Satria, “A Virtual Laboratory Application for Vocational Productive Learning Using Augmented Reality,” J. Pendidik. Teknol. dan Kejuru., vol. 25, no. 2, pp. 194–203, 2019.
A. Suryanto, D. A. Kusumawati, and I. M. H. Sanhoury, “Development of Augmented Reality Technology Based Learning Media of Lathe Machines,” J. Pendidik. Teknol. dan Kejuru., vol. 24, no. 1, pp. 32–38, 2018, doi: 10.21831/JPTK.V24I1.18245.
M. E. Ismail et al., “The Effect of an Augmented Reality Teaching Kit on Visualization, Cognitive Load and Teaching Styles,” J. Pendidik. Teknol. dan Kejuru., vol. 24, no. 2, pp. 178–184, 2018.
R. S. Pressman, Software Engineering A Practitoner’s Approach (Seventh Edition). New York: The McGraw-Hill Companies, Inc., 2010.
F. Manuri and A. Sanna, “A Survey on Applications of Augmented Reality,” ACSIJ Adv. Comput. Sci. an Int. J., vol. 5, no. 1, p. 19, 2016.
T. Murnane and K. Reed, “On the Effectiveness of Mutation Analysis as a Black Box Testing,” in Australian Software Engineering Conferen, 2001, pp. 12–20.
S. Nidhra, “Black Box and White Box Testing Techniques – A Literature Review,” Int. J. Embed. Syst. Appl., vol. 2, no. 2, 2012.
E. Steegmans et al., “Black and White Testing: Bridging Black Box Testing and White Box Testing,” J. Softw. Test., pp. 1–12, 2004.
G. Allanwood and P. B. Beare, User Experience Design: Creating Design Users Really Love. London: Bedford Square, 2014.
B. Laugwitz, M. Schrepp, and T. Held, “Construction and Evaluation of a User Experience Questionnaire,” A. Holzinger USAB 2008, LNCS, vol. 5298, pp. 63–67, 2008.
M. P. Cota, J. Thomaschewski, M. Schrepp, and R. Goncalves, “Efficient Measurement of the User Experience,” in Procedia Computer Science the 5th International Conference on Software Development and Technologies for Enhancing, 2014, pp. 491–498.
M. Schrepp, A. Hinderks, and J. Thomaschewski, “Design and Evaluation of a Short Version of the User Experience Questionnaire (UEQ-S),” Int. J. Interact. Multimed. Artif. Intell., vol. 4, no. 6, pp. 103–108, 2017.
M. Schrepp, User Experience Questionnaire Handbook Version 7. The UEQ, 2019.
A. Moural and T. A. Oritsland, “User Experience in Mobile Virtual Reality: An On-site Experience,” J. Digit. Landsc. Archit., vol. 4, p. `152-159, 2019.
D. M. Yulanto, P. Sudira, and P. D. Aristya, “Quality Continuous Professional Development for Automotive Engineering Productive Teachers,” J. Pendidik. Teknol. dan Kejuru., vol. 24, no. 2, pp. 192–197, 2018.
DOI: https://doi.org/10.21831/jptk.v26i1.27907
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