Application of 3D scanning in the initial stages of the design of academic symbols, with the objective of optimizing the design process using predetermined specific art details.
Abstract. The digital image is an integral part of the contemporary design process. Regardless of the method used to create the image of a conceptual idea /sketch, esquisse/. The result is a digital image, which permits manufacturing, modification and printing. In the design for academic purposes such cases are the majority. This research examines the possibilities for the specific application of 3D scanning in the design of specific complex forms with volume with an artistic character in the field of the award and memorabilia academic system. The application of these technologies noticeably decreases the time needed for design, which is key in such tasks. There is an increase in the precision of the manufacturing of the specific form, as well as a possibility for its printing and modification should the need of other projects, demanding the presence of the same object arise.
William R. Benner, Jr. (2016) LASER SCANNERS: Technologies and Applications: How they work, and how they can work for your product, Pangolin, ISBN-10: 069274777X; ISBN-13: 978-0692747773; p. 34
Manor A., Fischer A. (2001) Reverse Engineering of 3D Models Based on Image Processing and 3D Scanning Techniques. In: Kimura F. (eds) Geometric Modelling. GEO 1998. IFIP — The International Federation for Information Processing, vol 75. Springer, Boston, MA
Fragkos, S., Tzimtzimis, E., Tzetzis, D., Dodun, O., & Kyratsis, P. (2018). 3D laser scanning and digital restoration of an archaeological find. In MATEC Web of Conferences (Vol. 178, p. 03013). EDP Sciences.
Tacheva, H. V. (2017). Features of representative design for academic needs–development of conceptual models when designing symbols and regalia. ANNUAL JOURNAL OF TECHNICAL UNIVERSITY OF VARNA, BULGARIA, 1(1), 67-76.
Tacheva Hr. (2017a)„Features of representative design for academic needs – development of conceptual models when designing symbols and regalia” в Первой международной научной конференции „Дизайн и художественное творчество: теория, методика и практика“ Санкт- Петербург,2017 Русия, 88-95 стр.
Foley, J. (1991). The Guinness Book of Signs and Symbols. Guiness.
Krzystek P,. Bobitz P. (1997). Reverse Engineering in combination with digital photogrammetry (ICEM SURF/ICEM PHOTO). Product Modelling for Computer Integrated Design and Manufacture, 237.
Баешко, Л. С., Гордиенко, А. Н., & Гордиенко, А. Н. (2007). Энциклопедия символов.
Dovramadjiev T. (2017). 3D computer processing and improvement of the geometry of received photogrammetric models through photo shooting with one camera. Proceedings of ISCAME 2017, 12-13 October, 2017 Debrecen, Hungary. ISBN 978-963-473-304-1. p. 115 - 122.
Waas М., Zell D. (2014). Practical 3D photogrammetry for the conservation and documentation of Cultural Heritage. Museen der Stadt Wien – Stadtarchäologie. Proceedings of the 18th International Conference on Cultural Heritage and New Technologies - 2013. ISBN 978-3-200-03676-5.
Total number of hits on abstract = 247 times
Downloads for 2020
This work is licensed under a Creative Commons Attribution 4.0 International License.