Information Technology Reference
In-Depth Information
Baars, B. (1988).
A cognitive theory of consciousness
. Cambridge: Cambridge University Press.
Boden, M. (2003).
The creative mind: myths and mechanisms
(2nd ed.). London: Routledge.
Boden, M. (2010).
Creativity and art. Three roads to success
. London: Oxford University Press.
Carlsson, M., Ottosson, G., & Carlson, B. (1997). An open-ended finite domain constraint solver.
In
Proceedings of programming languages: implementations, logics, and programs
.
Charnley, J. (2010).
A global workspace framework for combined reasoning
. PhD thesis, Depart-
ment of Computing, Imperial College, London, UK.
Cohen, H. (1995). The further exploits of AARON, painter.
Stanford Humanities Review
,
4
(2).
Collomosse, J., & Hall, P. (2006). Salience-adaptive painterly rendering using genetic search.
In-
ternational Journal on Artificial Intelligence Tools (IJAIT)
,
15
(4), 551-576.
Colton, S. (2002).
Automated theory formation in pure mathematics
. Berlin: Springer.
Colton, S. (2008a). Automatic invention of fitness functions, with application to scene generation.
In
Proceedings of the EvoMusArt workshop
.
Colton, S. (2008b). Creativity versus the perception of creativity in computational systems. In
Proceedings of the AAAI spring symposium on creative systems
.
Colton, S. (2008c). Experiments in constraint-based automated scene generation. In
Proceedings
of the 5th international joint workshop on computational creativity
.
Colton, S. (2010). Stroke matching for paint dances. In
Proceedings of computational aesthetics
.
Colton, S., & Browne, C. (2009). Evolving simple art-based games. In
Proceedings of the
EvoGames workshop
.
Colton, S., Cook, M., & Raad, A. (2011). Ludic considerations of tablet-based evo-art. In
Proceed-
ings of the EvoMusArt workshop
.
Colton, S., Valstar, M., & Pantic, M. (2008). Emotionally aware automated portrait painting. In
Proceedings of the 3rd international conference on digital interactive media in entertainment
and arts
.
Cook, M., & Colton, S. (2011). Automated collage generation—with more intent. In
Proceedings
of the international conference on computational creativity
.
El-Hage, J. (2009).
Linguistic analysis for the painting fool
. Master's thesis, The Computer Labo-
ratory, University of Cambridge, UK.
Faure-Walker, J. (2006).
Painting the digital river
. New York: Prentice Hall.
Galanter, P. (2010). The problem with evolutionary art is .... In
Proceedings of the EvoMusArt
workshop
.
Hull, M., & Colton, S. (2007). Towards a general framework for program generation in creative
domains. In
Proceedings of the 4th international joint workshop on computational creativity
.
Krzeczkowska, A. (2009).
Automated collage generation from text
. Master's thesis, Department of
Computing, Imperial College, London, UK.
Krzeczkowska, A., El-Hage, J., Colton, S., & Clark, S. (2010). Automated collage generation—
with intent. In
Proceedings of the 1st international conference on computational creativity
.
Machado, P., & Cardoso, A. (2002). All the truth about NEvAr.
Applied Intelligence
,
16
(2), 101-
118.
McCorduck, P. (1991).
AARON's code: meta-art, artificial intelligence, and the work of Harold
Cohen
. New York: Freeman.
McCormack, J. (2008). Evolutionary L-systems. In P. Hingston, L. Barone & Z. Michalewicz
(Eds.),
Design by evolution: advances in evolutionary design
(pp. 168-196). Berlin: Springer.
Mihalcea, R., & Tarau, P. (2004). TextRank: bringing order into texts. In
Proceedings of the con-
ference on empirical methods in natural language processing
.
Pease, A., & Colton, S. (2011). On impact and evaluation in computational creativity: a discussion
of the Turing test and an alternative proposal. In
Proceedings of the AISB symposium on AI and
philosophy
.
Perez y Perez, R. (2007). Employing emotions to drive plot generation in a computer-based story-
teller.
Cognitive Systems Research
,
8
(2), 89-109.
Picard, R. (2002).
Affective computing
. Cambridge: MIT Press.
Ritchie, G. (2007). Some empirical criteria for attributing creativity to a computer program.
Minds
and Machines
,
17
, 67-99.
