Guilloche rosette as an element of building complex geometric structures
PDF
DOI

Keywords

Patterned curves, Design, Guilloche technology, Rosette, Geometric structures

How to Cite

Guilloche rosette as an element of building complex geometric structures. (2023). Journal of Universal Science Research, 1(10), 526-534. https://universalpublishings.com/index.php/jusr/article/view/2269

Abstract

Geometry as one of the tools of cognition is widely in demand in various fields and directions. One application of this use is the construction of complex geometric structures. In particular, this is possible based on the guilloche technology, which allows the formation of patterned curves. Based on this, the work discusses some approaches to constructing guilloche rosettes. Complex geometric designs using guilloche are presented. The results are presented in the form of separate figures. Some problematic issues are also discussed.

PDF
DOI

References

Wedeen, V. J., & et al.. (2012). The geometric structure of the brain fiber pathways. Science, 335(6076), 1628-1634.

Dabbour, L. M. (2012). Geometric proportions: The underlying structure of design process for Islamic geometric patterns. Frontiers of Architectural research, 1(4), 380-391.

Borcea, C., & Streinu, I. (2015). Geometric auxetics. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 471(2184), 20150033.

Lyubchenko, V., & et al.. (2016). Digital image processing techniques for detection and diagnosis of fish diseases. International Journal of Advanced Research in Computer Science and Software Engineering, 6(7), 79-83.

Lyashenko, V., Matarneh, R., & Kobylin, O. (2016). Contrast modification as a tool to study the structure of blood components. Journal of Environmental Science, Computer Science and Engineering & Technology, 5(3), 150-160.

Boboyorov Sardor Uchqun o‘g‘li, Lyubchenko Valentin, & Lyashenko Vyacheslav. (2023). Image Processing Techniques as a Tool for the Analysis of Liver Diseases. Journal of Universal Science Research, 1(8), 223–233.

Челомбітько, В. Ф., & Кардаш, О. В. (2022). Діджітал АРТ візерункових кривих в цінних паперах. In The III International Scientific and Practical Conference «Society and science. Problems and prospects» (pp. 67-69). UK, ISG.

Kardash, O., & Chelombitko, V. Didgital-art цінних паперів. Theory and practice of design, (23), 105-114.

Слюніна, Т. Л., Бережний, Є. Б., & Ляшенко, В. В. (2007). Розвиток вітчизняної мережі банківських установ: особливості та регіональні аспекти. Вісник ХНУ ім. В. Н. Каразіна. Економічна серія, 755. 84–88.

Ляшенко В. В. (2007). Интерпретация и анализ статистических данных, описывающих процессы экономической динамики. Бизнес Информ, 9(2), 108-113.

Vasiurenko, O., & et al.. (2020). Spatial-Temporal Analysis the Dynamics of Changes on the Foreign Exchange Market: an Empirical Estimates from Ukraine. Journal of Asian Multicultural Research for Economy and Management Study, 1(2), 1-6.

Dadkhah, M., & et al.. (2019). Methodology of wavelet analysis in research of dynamics of phishing attacks. International Journal of Advanced Intelligence Paradigms, 12(3-4), 220-238.

Attar, H., & et al.. (2022). Control System Development and Implementation of a CNC Laser Engraver for Environmental Use with Remote Imaging. Computational Intelligence and Neuroscience, 2022.

Abu-Jassar, A. T., & et al.. (2022). Electronic user authentication key for access to HMI/SCADA via unsecured internet networks. Computational Intelligence and Neuroscience, 2022.

Gong, W., & et al.. (2017). Wetting transition energy curves for a droplet on a square-post patterned surface. Science Bulletin, 62(2), 136-142.

Winklhofer, M., Dumas, R. K., & Liu, K. (2008). Identifying reversible and irreversible magnetization changes in prototype patterned media using first-and second-order reversal curves. Journal of Applied Physics, 103(7).

Chaganty, N. R. (2003). Analysis of growth curves with patterned correlation matrices using quasi-least squares. Journal of statistical planning and inference, 117(1), 123-139.

Izumi, K., Yoshida, Y., & Tokito, S. (2017). Soft blanket gravure printing technology for finely patterned conductive layers on three-dimensional or curved surfaces. Japanese journal of applied physics, 56(5S2), 05EA03.

Lee, H. C., & et al.. (2020). Multiaxially-stretchable kirigami-patterned mesh design for graphene sensor devices. Nano Research, 13, 1406-1412.

Al-Ghadi, M., & et al.. (2022). Identity Documents Authentication based on Forgery Detection of Guilloche Pattern. arXiv preprint arXiv:2206.10989.

Tomescu, R., & et al.. (2021). Low cost technology for the fabrication of anti-counterfeiting microtaggants. Journal of Micromechanics and Microengineering, 31(3), 035008.

Simske, S. J. (2022). Printing Strategies. Inkjet Printing in Industry: Materials, Technologies, Systems, and Applications, 3, 1583-1593.

Bessmertnyi, V. S., & et al.. (2023). New Trends in Glass Matting Technologies. Glass and Ceramics, 1-5.

Seaby, A. W. (1933). The Guilloche. Antiquity, 7(26), 184-189.

Makovicky, E. (2016). Symmetry: through the eyes of old masters. Walter de Gruyter GmbH & Co KG.

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.