_01.jpg)
| Artist | Dates | Artform | Contribution to mathematical art |
|---|---|---|---|
| Calatrava, Santiago | 1951– | Architecture | Mathematically-based architecture[3][8] |
| Della Francesca, Piero | 1420–1492 | Fine art | Mathematical principles of perspective in art;[9] his books include De prospectiva pingendi (On perspective for painting), Trattato d’Abaco (Abacus treatise), and De corporibus regularibus (Regular solids) |
| Demaine, Erik and Martin | 1981– | Origami | "Computational origami": mathematical curved surfaces in self-folding paper sculptures[10][11][12] |
| Dietz, Ada | 1882–1950 | Textiles | Weaving patterns based on the expansion of multivariate polynomials[13] |
| Draves, Scott | 1968– | Digital art | Video art, VJing[14][15][16][17][18] |
| Dürer, Albrecht | 1471–1528 | Fine art | Mathematical theory of proportion[19][20] |
| Ernest, John | 1922–1994 | Fine art | Use of group theory, self-replicating shapes in art[21][22] |
| Escher, M. C. | 1898–1972 | Fine art | Exploration of tessellations, hyperbolic geometry, assisted by the geometer H. S. M. Coxeter[19][23] |
| Farmanfarmaian, Monir | 1922–2019 | Fine art | Geometric constructions exploring the infinite, especially mirror mosaics[24] |
| Ferguson, Helaman | 1940– | Digital art | Algorist, Digital artist[3] |
| Forakis, Peter | 1927–2009 | Sculpture | Pioneer of geometric forms in sculpture[25][26] |
| Grossman, Bathsheba | 1966– | Sculpture | Sculpture based on mathematical structures[27][28] |
| Hart, George W. | 1955– | Sculpture | Sculptures of 3-dimensional tessellations (lattices)[3][29][30] |
| Radoslav Rochallyi | 1980– | Fine art | Equations-inspired mathematical visual art including mathematical structures.[31][32] |
| Hill, Anthony | 1930– | Fine art | Geometric abstraction in Constructivist art[33][34] |
| Leonardo da Vinci | 1452–1519 | Fine art | Mathematically-inspired proportion, including golden ratio (used as golden rectangles)[19][35] |
| Longhurst, Robert | 1949– | Sculpture | Sculptures of minimal surfaces, saddle surfaces, and other mathematical concepts[36] |
| Man Ray | 1890–1976 | Fine art | Photographs and paintings of mathematical models in Dada and Surrealist art[37] |
| Naderi Yeganeh, Hamid | 1990– | Fine art | Exploration of tessellations (resembling rep-tiles)[38][39] |
| Pacioli, Luca | 1447–1517 | Fine art | Polyhedra (e.g. rhombicuboctahedron) in Renaissance art;[19][40] proportion, in his book De divina proportione |
| Perry, Charles O. | 1929–2011 | Sculpture | Mathematically-inspired sculpture[3][41][42] |
| Robbin, Tony | 1943– | Fine art | Painting, sculpture and computer visualizations of four-dimensional geometry[43] |
| Ri Ekl | 1984– | Visual computer poetry | Geometry-inspired poetry [44] |
| Saiers, Nelson | 2014– | Fine art | Mathematical concepts (toposes, Brown representability, Euler's identity, etc) play a central role in his artwork.[45][46][47] |
| Séquin, Carlo | 1941– | Digital art | computer graphics, geometric modelling, and sculpture[48][49][50] |
| Sugimoto, Hiroshi | 1948– | Photography, sculpture | Photography and sculptures of mathematical models,[51] inspired by the work of Man Ray [52] and Marcel Duchamp[53][54] |
| Taimina, Daina | 1954– | Textiles | Crochets of hyperbolic space[55] |
| Thorsteinn, Einar | 1942–2015 | Architecture | Mathematically-inspired sculpture and architecture with polyhedral, spherical shapes and tensile structures [56][57] |
| Uccello, Paolo | 1397–1475 | Fine art | Innovative use of perspective grid, objects as mathematical solids (e.g. lances as cones)[58][59] |
| Kosmalski, Mikołaj Jakub | 1986 | Digital art | Exploration of spreadsheet software capabilities (OO Calc and MS Excel), generation of finite sets of points by parametric formulas, connecting these points by curved (usually cubic) and broken lines.[60] |
| Verhoeff, Jacobus | 1927–2018 | Sculpture | Escher-inspired mathematical sculptures such as lattice configurations and fractal formations[3][61] |
| Widmark, Anduriel | 1987– | Sculpture | Geometric glass sculpture using tetrastix, and knot theory[62][63] |
Δεν υπάρχουν σχόλια:
Δημοσίευση σχολίου