Information Technology Reference
In-Depth Information
Vol. 2611
.
Applications of evolutionary computing, EvoWorkshops 2003: EvoBIO, EvoCOM-
NET, EvoHOT, EvoIASP, EvoMUSART, EvoSTOC
, Essex, UK. Berlin: Springer.
Saunders, R. (2001).
Curious design agents and artificial creativity—a synthetic approach to the
study of creative behaviour
. PhD thesis, University of Sydney, Department of Architectural and
Design Science Faculty of Architecture, Sydney, Australia.
Savarese, J. M., & Miller, R. (1979). Artistic preferences and cognitive-perceptual style.
Studies in
Art Education
,
20
, 41-45.
Schmidhuber, J. (1997). Low-complexity art.
Leonardo, Journal of the International Society for
the Arts, Sciences, and Technology
,
30
(2), 97-103.
http://www.jstor.org/stable/1576418
.
Schmidhuber, J. (1998). Facial beauty and fractal geometry.
http://cogprints.org/690/
.
Schmidhuber, J. (2007). Simple algorithmic principles of discovery, subjective beauty, selective
attention, curiosity and creativity. In M. Hutter, R. A. Servedio & E. Takimoto (Eds.),
Lecture
notes in computer science: Vol. 4754
.
ALT
(pp. 32-33). Berlin: Springer.
Sobel, I. (1990). An isotropic 3
×
3 image gradient operator. In
Machine vision for three-
dimensional scenes
(pp. 376-379).
Spector, L., & Alpern, A. (1994). Criticism, culture, and the automatic generation of art-
works. In
Proceedings of twelfth national conference on artificial intelligence
(pp. 3-8). Seat-
tle/Washington: AAAI Press/MIT Press.
Spehar, B., Clifford, C. W. G., Newell, N., & Taylor, R. P. (2003). Universal aesthetic of fractals.
Computers and Graphics
,
27
(5), 813-820.
Staudek, T. (2002).
Exact aesthetics. Object and scene to message
. PhD thesis, Faculty of Infor-
matics, Masaryk University of Brno.
Staudek, T. (2003). Computer-aided aesthetic evaluation of visual patterns. In
ISAMA-BRIDGES
conference proceedings
, Granada, Spain (pp. 143-149).
Svangård, N., & Nordin, P. (2004). Automated aesthetic selection of evolutionary art by distance
based classification of genomes and phenomes using the universal similarity metric. In R. Gün-
ther et al. (Eds.),
Lecture notes in computer science: Vol. 3005
.
Applications of evolutionary
computing, EvoWorkshops 2004: EvoBIO, EvoCOMNET, EvoHOT, EvoIASP, EvoMUSART,
EvoSTOC
, Coimbra, Portugal (pp. 445-454). Berlin: Springer.
Taylor, R. P., Micolich, A. P., & Jonas, D. (1999). Fractal analysis of Pollock's drip paintings.
Nature
,
399
, 422.
Teller, A., & Veloso, M. (1996). PADO: a new learning architecture for object recognition. In K.
Ikeuchi & M. Veloso (Eds.),
Symbolic visual learning
(pp. 81-116). London: Oxford University
Tong, H., Li, M., Zhang, H., He, J., & Zhang, C. (2004). Classification of digital photos taken by
photographers or home users. In K. Aizawa, Y. Nakamura & S. Satoh (Eds.),
Lecture notes in
computer science: Vol. 3331
.
PCM (1)
(pp. 198-205). Berlin: Springer.
Tyler, C. W. (Ed.) (2002).
Human symmetry perception and its computational analysis
. Hillsdale:
Erlbaum.
Uduehi, J. (1995). A cross-cultural assessment of the maitland graves design judgment test using
U.S. and Nigerian students.
Visual Arts Research
,
21
(2), 11-18.
Wallraven, C., Cunningham, D. W., & Fleming, R. (2008). Perceptual and computational cat-
egories in art. In P. Brown (Ed.),
International symposium on computational aesthetics in
graphics, visualization, and imaging
(pp. 131-138). Aire-la-Ville: Eurographics Association.
Wallraven, C., Fleming, R. W., Cunningham, D. W., Rigau, J., Feixas, M., & Sbert, M. (2009).
Categorizing art: comparing humans and computers.
Computers & Graphics
,
33
(4), 484-495.
Wertheimer, M. (1939). Laws of organization in perceptual forms. In W. D. Ellis (Ed.),
A source
topi of gestalt psychology
(pp. 71-88). New York: Harcourt Brace.
Wong, L.-K., & Low, K.-L. (2009). Saliency-enhanced image aesthetics class prediction. In
ICIP
(pp. 997-1000). New York: IEEE Press.
Yan, Y., & Jin, J. S. (2005). Indexing and retrieving oil paintings using style information. In S.
Bres & R. Laurini (Eds.),
Lecture notes in computer science: Vol. 3736
.
VISUAL
(pp. 143-152).
Berlin: Springer.