1.Abas, S. J., & Salman, A. S. (1994). Symmetries of Islamic geometrical patterns. Singapore: World Scientific Publishing Company.
2.Abelson, H. and diSessa, A.(1980). Turtle geometry: the computer as a medium for exploring Mathematics. Cambridge: The MIT Press Series in Artificial Intelligence.
3.Akin, O. (1990). Necessary conditions for design expertise and creativity. The Journal of design studies, 7 (2), 107-113.
4.Akin, O., & Akin, C. (1996). Expertise and creativitiy in architectural design. In proceedings of the first international symposium on descriptive models of design, Turkey
5.Ancient Greece Mythology. Retrieved January 25, 2005, from the website: http://www.ancientgreece.com/mythology/mythology.htm
6.Anderson, J. R. (1999). Cognitive psychology and its implications (5th edition). New York: Worth Publishers.
7.Argyros, I. K., & Szidarovszky, F. (1993). The theory and applications of iteration methods. Florida: CRC Press.
8.Art from Code: Generator.x, Retrieved July 6, 2005, from the website: http://www.unlekker.net/index.php
9.Ashton, A. (2003). Harmonograph: a visual guide to the mathematics of music. New York: Walker & Company.
10.Barratt, K. (1980). Logic and design: in art, science & mathematics. New York: The Lyons Press.
11.Bas C. Van Fraasen. (1990). Laws and symmetry. New York: Oxford University Press.
12.Bentley, P. J. (1999). Evolutionary design by computers. San Francisco: Morgan Kaufmann.
13.Berkowitz, J. (1994). Fractal cosmos: the art of mathematical design. Amber Lotus, San Francisco.
14.Bohm, D. (2002). Wholeness and the implicate order. New York: Routledge Publications.
15.Bossomaier, T., & Green, D. (1998). Patterns in the sand: computers, complexity, and everyday life. Australia: Allen & Unwin Ptv Ltd.
16.Briggs, J., & Peat, F. D. (2000). Seven life lessons of chaos: spiritual wisdom from the science of change. New York: Harper Perennial.
17.Brown J. R., & Earnshaw R., & Jern M., & Vince, J. (1995). Visualization: using computer graphics to explore data and present information. New York: John Wiley & Sons, Inc.
18.Carlson, P. W. (1999). Two artistics orbit trap rendering methods for Newton M-set fractals. Paper presented at Computers & Graphics, Elsevier Science Ltd.
19.Cassirer, E. (1965). The philosophy of symbolic forms. Volume 1: Language, Yale University Press.20.Chladni patterns for violin plates, Retrieved July 7, 2005, from the website: http://www.phys.unsw.edu.au/~jw/chladni.html
21.Clayson, J. (1998). Visual modeling with LOGO: a structured approach to seeing. London: MIT PRESS.
22.Colman, S. (2003). Harmonic proportion and form in nature, art and architecture. New York: Dover Publications.
23.Crawfis, R. A., & Allison, M. J. (1991). A scientific visualization synthesizer. Paper presented at Visualization 1991, IEEE Computer Society Press.
24.Day, L. F. (1998). Pattern Design. New York: Dover Publications.
25.Design by numbers (Aesthetics and Computation Group). Retrieved July 7, 2005, from the website: http://dbn.media.mit.edu/
26.Drawing Machine. Retrieved July 9, 2005, from the website: http://www.digithink.com/embedded/drawingmachines/
27.Erwin, K. (1988). Advanced engineering mathematics. Columbus: Ohio State University.
28.Expansions: geometric pattern creation. Retrieved August 12, 2005, from the website: http://www.custompuzzlecraft.com/ Expansions/expansions.html
29.Field, M. (1992). Gallery of symmetric chaos page. Retrieved July 12, 2005, from the website: http://nothung.math.uh.edu/~mike/ag/art.html
30.Field, M., & Golubitsky, M. (1992). Symmetry in chaos: a search for pattern in mathematics, art and nature. New York: Oxford University Press Inc.
31.Focillon, H. (1992). The life of forms in art. New York: Zone Books.
32.Franke, H. W. (1988). The computer: a new tool for visual art, 4 (1), 35-39.33.Gardiner, M. M., & Christie, B. (1987). Applying cognitive psychology to user-interface design. New York: John Wiley & Sons Inc.
34.Gelernter, D. (1998). The aesthetics of computing. London: Weidenfeld & Nicolson.
35.Ghyka, M. (1978). The geometry of art and life. New York: Dover Publications.
36.Graham, G. (1997). Philosophy of the arts: an introduction to aesthetics. London and New York: Routledge.
37.Haeckel, E. (1974). Art forms in nature. New York: Dover Publications.
38.Hagendoorn, I. (2003). The dancing brain. Dana Press: The Dana Forum on Brain Science, 5 (2).
39.Hambidge, J. (1967). The elements of dynamic symmetry. New York: Dover Publications.
40.Hansen, V. L. (1993). Geometry in nature. Wellesley: A K Peter Ltd.
41.Hargittai, I., & Hargittai, M. (1994). Symmetry: a unifying concept. Bolinas: Shelter Publications.
42.Helmreich, S (1998). Silicon second nature: culturing artificial life in a digital world. University of California.
43.Herz-Fischler, R. (1998). A mathematical history of the golden number. New York: Dover Publications.
44.Holden, A. (1991). Shapes, space, and symmetry. New York: Dover Publications.
45.Hyper Grafix. Retrieved August 17, 2005, from the website: http://iyi.yi.org/junoi/grafix/index.html
46.Isaac, K., & Rosebush, J. (1993). Computer graphics for designers and Artists. New York: Van Nostrand Reinhold.
47.Ivins, W. (1946). Art and geometry a study in space intuitions. New York: Dover Publications.
48.Kappraff, J. (1990). Connections: the geometric bridge between art and science. Singapore: World Scientific Publishing.
49.Kasner, E., & Newman, J. (2001). Mathematics and the imagination. New York: Dover Publications.
50.Krawczyk, R. J. (2000). Spirolaterals: complexity from simplicity. Paper presented at the conference of the international society of the arts, mathematics and architecture. San Sebastian, Spain.
51.Krawczyk, R. J. (2003). Explore the massing of growth in cellular automata, generative art. Milan, Italy.
52.Langer, S. K. (1977). Feeling and form: a theory of art developed from philosophy in a new key. Englewood Cliffs, NJ: Prentice-Hall.
53.Leaning by design: ill-defined problem (Georgia Institute of Technology). Retrieved September 20, 2005, from the website: http://www.cc.gatech.edu/edutech/LBD/ill-defined-problems.html
54.Leaning by design: well-defined problem (Georgia Institute of Technology). Retrieved September 2, 2005, from the website: http://www.cc.gatech.edu/edutech/LBD/well-defined-problems.html
55.Leonardo Da Vinci (1970). The notebooks of Leonardo Da Vinci. New York: Dover Publications.
56.Leys, J. (2002). Biomorphic art: an artist’s statement. Journal of Computers & Graphics, 26 (4), 977-979.
57.Leyton, M. (1992). Symmetry, causality, and mind. Cambridge: The MIT Press.
58.Lissajous 3D figures. Retrieved September 12, 2005, from the website: http://gallery.wolfram.com/images/Surfaces/6/LissajouPieces
59.Lissajous figures. Retrieved September 12, 2005, from the website: http://physics.kenyon.edu/EarlyApparatus/Oscillations_and_Waves/Lissajous_Figures/Lissajous_Figures.html
60.LOGO Foundation. Retrieved September 12, 2005, from the website: http://el.media.mit.edu/logo-foundation/logo/index.html
61.Lundy, M. (2001). Sacred geometry. Canada: Walker & Company.
62.Machine Drawings. Retrieved September 13, 2005, from the website: http://iaaa.nl/machinedrawings.html
63.Macnab, J. (2004). Virtual exhibit review: the geometry of aspiration. Journal of Nexus Network, 6 (1).64.Mandelbrot B. B. (1977). The fractal geometry of nature. New York: W. H. Freeman and Company.
65.Manifest. Retrieved July 23, 2005, from the website: http://processing.org/exhibition/
66.Maor, E. (1998). Trigonometric delights. New Jersey: Princeton University Press.
67.Marinetti, F. T. (1909). The founding and manifesto futurism. Retrieved September 10, 2005, from the website: http://www.futurism.org.uk/ manifestos/manifesto01.htm
68.Mario, L. (1945). The golden ratio: the story of phi, the world’s most astonishing number. New York: Broadway Books.
69.Marion, R. (1999). The edge of organization: chaos and complexity theories of formal social systems. London: Sage Publications.
70.Martineau, J. (1995). A little book of coincidence. Wales: Wooden Books.
71.MATHEMATICA, Retrieved September 10, 2005, from the website: http://www.wolfram.com/
72.McCown, J. R., & Sequeira M. A. (1994). Patterns in mathematics. MA: International Thomson Publishing.
73.McWeeny, R. (2002). Symmetry: an introduction to group theory and its applications. New York: Dover Publications.
74.Metropop Denim. Retrieved June 28, 2005, from the website: http://processing.org/exhibition/
75.Miller, A. I. (1996). Inslights of genius: imagery and creativity in science and art. New York: Copernicus.
76.Mitchell, W. J. (1990). The logical of architecture: design, computation, and cognition. Cambridge: The MIT Press.
77.Mitchell, W. J., & McCullough, M. (1995). Digital design media. New York: John Wiley & Sons Inc.
78.N-Body Problems. Retrieved June 28, 2005, from the website: http://www.ams.org/ams/mathnews/nbody.html
79.Newell, A., & Simon, H. (1972). Human problem solving. Englewood Cliffs, NJ: Prentice-Hall
80.Pedoe, D. (1983). Geometry and the visual arts. New York: Dover Publications.
81.Peitgen, H. O., & Hartmut, J., & Dietmar, S. (1992). Chaos and fractals: new frontiers of science. New York: Springer-Verlag.
82.Processing (Aesthetics and Computation Group). Retrieved July 30, 2005, from the website: http://processing.org/
83.Proctor, R. M. (1990). Principles of pattern design. New York: Dover Publications.
84.Ptolemy (Almagest). Retrieved August 30, 2005, from the website: http://www.ibiblio.org/expo/vatican.exhibit/exhibit/d-mathematics/Greek_astro.html
85.Random attractors: found using Lyapunov exponents. Retrieved September 2, 2005, from the website: http://astronomy.swin.edu.au/~pbourke/fractals/lyapunov/
86.Resnik, M. D. (1997). Mathematics as a science of patterns. New York: Oxford University Press.
87.Retrograde motion. Retrieved August 2, 2005, from the website: http://alpha.lasalle.edu/~smithsc/Astronomy/retrograd.html
88.Ricard V. Sole, & Brian Goodwin (2001). Signs of life: how complexity pervades biology. New York: Perseus Books Group.
89.Rogers, D. F., & Adams, J. A. (1990). Mathematical elements for computer graphics. New York: McGraw-Hill Book Company.
90.Rosen, J. (1998). Symmetry discovered: concepts and applications in nature and science. New York: Dover Publications.
91.Salmon, R., & Slater, M. (1987). Computer graphics: systems and concepts. Boston: Addison-Wesley Publishing Company.
92.Self-organizing Painting. Retrieved August 15, 2005, from the website: http://www.vi-anec.de/Trance-Art/Evo-Kunst/Evo-Kunst-Beschreibungen/SelbstorgMalerei_e.html
93.Sen, A. K. (1999). The product-delay algorithm: graphic design with amplitude- and frequency-modulated waveforms. Journal of Computers & Graphics, 23 (1), 169-174.94.Sen, A. K. (2003). A three-dimensional approach to graphic design, Journal of Computers & Graphics, 27 (2), 303-310.
95.Sharp, J. (1999). In pursuit of pursuit Curves. Paper presented at the International society of the arts, mathematics, and architecture conference, Spain.
96.Shlain, L. (1993). Art and physics: parallel visions in space, time, and light. New York: Morrow Publications.
97.Sigmund, K. (1993). Game of life: explorations in ecology, evolution and behaviour. New York: Oxford University Press.
98.Simon, H. A. (1996). The sciences of the artificial. Cambridge: The MIT Press.
99.Singh, S. (2005). Big bang: the origin of the universe. New York: Harper Perennial.
100.Sokolnikoff, I. S. (1967). Mathematics of physics and modern engineering. New York: McGraw-Hill Book Company.
101.Sommerer, C., & Mignonneau, L. (1998). Art @ Science, New York: Springer-Verlag Wien.
102.Stefan Spännare: Some nbody plot images. Retrieved August 21, 2005, from the website: http://www.spaennare.se/ssnbody2.html
103.Strohmeier, J., & Westbrook, P. (2003). Divine harmony: the life and teachings of Pythagoras. California: Berkeley Hills Books.
104.Sun, C. W. (1999). Relative motions and complex shapes. Paper presented at ISAMA 99, Spain, 481-486.
105.Tate online: british and international modern art (Naum Gabo, 1890-1977). Retrieved August 23, 2005, from the website: http://www.tate.org.uk/servlet/ViewWork?cgroupid=999999961 &workid=4806&searchid=7529
106.Todd, S., & Latham, W. (1992). Evolutionary art and computers. Orlando: Academic Press Inc.
107.Ultra Fractal. Retrieved August 30, 2005, from the website: http://www.ultrafractal.com/
108.Wade, D. (2003). Li: dynamic form in nature. Canada: Walker & Company.
109.Washburn, D. K., & Crowe, D. W. (1991). Symmetries of culture: theory and practice of plane pattern analysis. Seattle and London: University of Washington Press.
110.Wilson, S. (2002). Information art: intersections of art, science, and technology. Cambridge: Leonardo Books.
111.Wiltshire, A. (1991). Symmetry patterns: the art of making beautiful patterns from special grids. Albans: Tarquin Publications.
112.Zee, A. (1999). Fearful symmetry. New Jersey: Princeton University Press.
113.Zeitz, P. (1999). The art and craft of problem solving. New York: John Wiley & Sons Inc.
114.王彥文譯(1993),Briggs, J., & Peat, F.著。渾沌魔鏡。台北:牛頓出版公司。
115.王昭仁譯(1999),Rowe, P. G.著。設計思考。台北:建築情報季刊。
116.吳玉成譯(2001),Focillon, H.著。造形的生命。台北:田園城市。
117.吳瑪琍譯(1985),Kandinsky著。點線面。台北:藝術家出版社。
118.呂清夫著(1984)。造形原理。台北:雄獅圖書。
119.李佩穗譯(1991),河口洋一郎著。電腦藝術。台北:藝術家出版社。
120.林和譯(1995),Gleick, J.著。渾沌。台北:天下文化。
121.林品章(1999)。藝術.設計的基礎:造形原理。台北:全華科技圖書。
122.林品章譯(1990),朝昌直巳著。光構成。台北:藝術家出版社。
123.高楠(1993)。藝術心理學。台南:復漢出版社有限公司。
124.馮於懋(2002)。電腦模擬之光跡造形。國立臺灣科技大學設計研究所碩士論文。
125.葉李華譯(1996),Stewart, L.著。大自然的數學遊戲。台北:天下文化。
126.齊若蘭譯(1994),Waldrop, M.著。複雜。台北:天下文化。