Quantifying Aesthetic Preference for Chaotic Patterns
Deborah J. Aks
University of Wisconsin at Whitewater
and
Julien C. Sprott
University of Wisconsin at Madison
ABSTRACT
Art and nature provide much of their aesthetic appeal from a balance of
simplicity and complexity, and order and unpredictability. Recently,
complex
natural patterns have been produced by simple mathematical equations
whose
solutions appear unpredictable (chaotic). Yet the simplicity and
determinism
of the equations ensure a degree of order in the resulting patterns.
The
first experiment shows how aesthetic preferences correlate with the
fractal
dimension (F) and the Lyapunov exponent (L) of the
patterns.
F reflects the extent that space is filled and L
represents
the unpredictability of the dynamical process that produced the
pattern.
Results showed that preferred patterns had an average F = 1.26
and
an average L = 0.37 bits per iteration, corresponding to many
natural
objects. The second experiment is a preliminary test of individual
differences
in preferences. Results suggest that self-reported creative individuals
have a marginally greater preference for high F patterns and
self-reported
scientific individuals preferred high L patterns. Objective
tests
suggest that creative individuals had a slightly greater preference for
patterns with a low F.
Ref: D. J. Aks
and
J. C. Sprott, Empirical Studies of the Arts 14,
1-16
(1996)
The complete paper is available in
PDF format.
Return to Sprott's Books and Publications.
Fig. 1. Sample screen display as exhibited to subjects showing four
typical attractors. Top row has L near zero; bottom row has L
near 0.2. Left column has F about 1.1; right column has F
about 1.3.
![[Figure 1]](/pubs/217fig1.gif)
Fig. 2. Summary of preferences in the F-L plane for two
typical
subjects; (a) HR prefers low F and high L; (b) DA
prefers
high F and lower L.
![[Figure 2a]](/pubs/217fig2a.gif)
(a)
![[Figure 2b]](/pubs/217fig2b.gif)
(b)