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Interactive Learning Environments Volume 29, 2021 - Issue 1
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Articles

Developing skills of fashion design by augmented reality technology in higher education

Abdellah Ibrahim Mohammed Elfekya Educational Technology, Kafrelsheikh University, Kafrelsheikh, Egypt;b Najran University, Najran, Saudi ArabiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-9208-8537
ORCID Icon &
Marwa Yasien Helmy Elbyalyb Najran University, Najran, Saudi Arabia;c Home Economic, Kafrelsheikh University, Kafrelsheikh, EgyptORCID Iconhttps://orcid.org/0000-0001-5521-8494
ORCID Icon
Pages 17-32 | Received 07 Jul 2018, Accepted 07 Dec 2018, Published online: 17 Dec 2018

References

  • Adelaja, O., Salusso, C. J., & Black, C. (2016). Design and development of western-style Nigerian apparel. International Journal of Fashion Design, Technology and Education, 9(3), 169–175.
  • Bacca, J., Baldiris, S., Fabregat, R., & Graf, S. (2014). Augmented reality trends in education: A systematic review of research and applications. Journal of Educational Technology & Society, 17(4), 133.
  • Bower, M., Howe, C., McCredie, N., Robinson, A., & Grover, D. (2014). Augmented reality in education–cases, places and potentials. Educational Media International, 51(1), 1–15.
  • Burns, L. D., Mullet, K. K., & Bryant, N. O. (2016). The business of fashion: Designing, manufacturing, and marketing. New York: Fairchild Books.
  • Cai, S., Chiang, F.-K., Sun, Y., Lin, C., & Lee, J. J. (2017). Applications of augmented reality-based natural interactive learning in magnetic field instruction. Interactive Learning Environments, 25(6), 778–791.
  • Carmigniani, J., Furht, B., Anisetti, M., Ceravolo, P., Damiani, E., & Ivkovic, M. (2011). Augmented reality technologies, systems and applications. Multimedia Tools and Applications, 51(1), 341–377.
  • Cheng, K.-H. (2018). Surveying students’ Conceptions of learning science by augmented reality and their Scientific Epistemic Beliefs. Eurasia Journal of Mathematics, Science and Technology Education, 14(4), 1147–1159.
  • Cho, H. K. (2017). A critical perspective on strengthening legal protection of fashion designs. Northeast Asian Law Review, 11, 95–113.
  • Choi, H. J., & Park, J.-H. (2018). Testing a path-analytic model of adult dropout in online degree programs. Computers & Education, 116, 130–138.
  • da Silva, I. C., Klein, G., & Brandão, D. M. (2017). Segmented and Detailed Visualization of Anatomical Structures based on augmented reality for Health education and knowledge Discovery. Advances in Science, Technology and Engineering Systems Journal (ASTESJ), 2(3), 469–478.
  • Diegmann, P., Schmidt-Kraepelin, M., Eynden, S., & Basten, D. (2015). Benefits of augmented reality in educational environments–a systematic literature review. Benefits, 3(6), 1542–1556.
  • Dunleavy, M. (2014). Design principles for augmented reality learning. TechTrends, 58(1), 28–34.
  • Dunleavy, M., & Dede, C. (2014). Augmented reality teaching and learning. In Bishop M. J., & Elen J. (Eds.), Handbook of research on educational communications and technology (4 ed., Vol. 2, pp. 735–745). New York: Macmillan.
  • Dunne, L. E., Morris, K., Reich, J., Ramaswamy, H., Ashdown, S. P., Kozen, F., & Coffman, C. (2015). Fashion meets space travel: Engaging girls in STEM through functional apparel design.
  • Elfeky, A. (2017). Social Networks Impact factor on students’ achievements and attitudes towards the “computer in teaching” course at the College of education. International Journal on E-Learning, 16(3), 231–244.
  • Elfeky, A. I. M. (2018). The effect of personal learning environments on participants’ higher order thinking skills and satisfaction. Innovations in Education and Teaching International, 1–12. doi: 10.1080/14703297.2018.1534601
  • Elfeky, A. I. M., & Elbyaly, M. Y. H. (2016). The impact of learning object repository (LOR) in the development of pattern making skills of home economics students. British Journal of Education, 4(2), 87–99.
  • Elfeky, A. I. M., & Elbyaly, M. Y. H. (2017). The use of CSCL environment to promote students’ achievement and skills in handmade embroidery. European Journal of Training and Development Studies, 4(2), 19–32.
  • Elfeky, A. I. M., & Masadeh, T. S. Y. (2016). The effect of mobile learning on students’ Achievement and Conversational skills. International Journal of Higher Education, 5(3), 20–31.
  • Fazel, A., & Izadi, A. (2018). An interactive augmented reality tool for constructing free-form modular surfaces. Automation in Construction, 85, 135–145.
  • Foster, P. J., & Cunniff, S. (2016). Augmented Reality in the Classroom.
  • Ho, H.-N. J., & Liang, J.-C. (2015). The relationships among scientific epistemic beliefs, conceptions of learning science, and motivation of learning science: A study of Taiwan high school students. International Journal of Science Education, 37(16), 2688–2707.
  • Hsieh, M., & Lee, J. (2018). Preliminary study of VR and AR applications in medical and healthcare education. J Nurs Health Stud, 3(1), 1.
  • Hwang, J.-y., Sanders, E. A., & Damhorst, M. L. (2014). South Korean Fashion designers’ decision-making process: The influence of cultural values and personal experience in the creative process.
  • Küçük, S., Yilmaz, R., Baydas, Ö, & Göktas, Y. (2014). Augmented reality applications attitude scale in secondary schools: Validity and reliability study. Egitim ve Bilim, 39(176), 383–392.
  • Küçük, S., Yýlmaz, R. M., & Göktaþ, Y. (2014). Augmented reality for learning English: Achievement, attitude and cognitive load levels of students. Education & Science/Egitim ve Bilim, 39(176), 393–404.
  • Lam, N. Y. K. (2017). Application in fashion design with chitosan based yarn development [Doctoral dissertation]. Hong Kong: The Hong Kong Polytechnic University.
  • Lei, C., & Chan, C. K. (2018). Developing meta-discourse through reflective assessment in knowledge building environments. Computers & Education, 126, 153–169.
  • Lukosch, S., Billinghurst, M., Alem, L., & Kiyokawa, K. (2015). Collaboration in augmented reality. Computer Supported Cooperative Work (CSCW), 24(6), 515–525.
  • McGrath, J. L., Taekman, J. M., Dev, P., Danforth, D. R., Mohan, D., Kman, N., … Bond, W. F. (2018). Using virtual reality Simulation environments to assess Competence for Emergency Medicine learners. Academic Emergency Medicine, 25(2), 186–195.
  • Pan, Y., Roedl, D., Blevis, E., & Thomas, J. (2015). Fashion thinking: Fashion practices and sustainable interaction design. International Journal of Design, 9(1), 53–66.
  • Poelman, R., Akman, O., Lukosch, S., & Jonker, P. (2012). As if being there: Mediated reality for crime scene investigation. Paper presented at the Proceedings of the ACM 2012 conference on computer supported cooperative work.
  • Rajan, S. P., & Vivek, C. (2016). Blending augmented reality and Cloud-need of the hour and an innovative approach. Journal of Chemical and Pharmaceutical Sciences, ISSN(0974-2115), 23–27.
  • Roger, N. (2017). Tripartite model of fashion design process. J Textile Eng Fashion Technol, 3(4), 00106.
  • Ruff, E. (2017). If the Shoe Fits: The effects of a uniform Copyright design test on Local fashion designers, 17 J. Marshall Rev. Intell. Prop. L. 262 (2017). The John Marshall Review of Intellectual Property Law, 17(2), 6.
  • Sadi, Ö, & Dagyar, M. (2015). High School students’ Epistemological Beliefs, Conceptions of learning, and Self-Efficacy for learning Biology: A study of their Structural models. Eurasia Journal of Mathematics, Science & Technology Education, 11(5), 1061–1079.
  • Saidin, N. F., Halim, N. D. A., & Yahaya, N. (2015). A review of research on augmented reality in education: Advantages and applications. International Education Studies, 8(13), 1.
  • Sandberg, J. (2018). Methods, apparatuses and computer program products for automatically generating suggested information layers in augmented reality: Google Patents.
  • Schrier, K. (2006). Using augmented reality games to teach 21st century skills. Paper presented at the ACM SIGGRAPH 2006 Educators program.
  • Singhal, S., Bagga, S., Goyal, P., & Saxena, V. (2012). Augmented chemistry: Interactive education system. International Journal of Computer Applications, 49(15), 1–5.
  • Tagaytayan, R., Kelemen, A., & Sik-Lanyi, C. (2018). Augmented reality in neurosurgery. Archives of Medical Science: AMS, 14(3), 572.
  • Tesolin, A., & Tsinakos, A. (2018). Opening real doors: Strategies for using mobile augmented reality to create Inclusive Distance education for learners with different-abilities. In Mobile and ubiquitous learning: An International Handbook (pp. 59–80). Singapore: Springer.
  • Vincent, O., Makinde, A., Salako, O., & Oluwafemi, O. (2018). A self-adaptive k-means classifier for business incentive in a fashion design environment. Applied Computing and Informatics, 14(1), 88–97.
  • Wang, X., & Dunston, P. S. (2011). Comparative effectiveness of mixed reality-based virtual environments in collaborative design. IEEE Transactions on Systems, Man and Cybernetics, Part C: Applications and Reviews, 41(3), 284–296.
  • Wu, P.-H., Hwang, G.-J., Yang, M.-L., & Chen, C.-H. (2018). Impacts of integrating the repertory grid into an augmented reality-based learning design on students’ learning achievements, cognitive load and degree of satisfaction. Interactive Learning Environments, 26(2), 221–234.
  • Wu, H.-K., Lee, S. W.-Y., Chang, H.-Y., & Liang, J.-C. (2013). Current status, opportunities and challenges of augmented reality in education. Computers & Education, 62, 41–49.
  • Yilmaz, R. M. (2016). Educational magic toys developed with augmented reality technology for early childhood education. Computers in Human Behavior, 54, 240–248.
  • Yilmaz, R. M., & Goktas, Y. (2017). Using augmented reality technology in storytelling activities: Examining elementary students’ narrative skill and creativity. Virtual Reality, 21(2), 75–89.
  • Yilmaz, R. M., Kucuk, S., & Goktas, Y. (2017). Are augmented reality picture books magic or real for preschool children aged five to six? British Journal of Educational Technology, 48(3), 824–841.

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