Technical report available
Melanie Mitchell
mm at cogsci.indiana.edu
Mon Apr 10 15:44:18 EDT 1989
The following report is available from the Center for
Research on Concepts and Cognition at Indiana University:
The Role of Computational Temperature in a Computer Model
of Concepts and Analogy-Making
Melanie Mitchell and Douglas R. Hofstadter
Center For Research on Concepts and Cognition
Indiana University
Abstract
In this paper we discuss the role of computational temperature
in Copycat, a computer model of the mental mechanisms underlying
human concepts and analogy-making. Central features of Copycat's
architecture are a high degree of parallelism, fine-grained
distributed processing, competition, randomness, and an interaction
of bottom-up perceptual pressures with an associative, overlapping,
and context-sensitive conceptual network. In Copycat,
computational temperature is used both to measure the amount and
quality of perceptual organization created by the program as
processing proceeds, and, reciprocally, to continuously control the
degree of randomness in the system. In this paper we will discuss
the role of temperature in two aspects of perception central to
Copycat's behavior: (1) the emergence of a "parallel terraced scan",
in which many possible courses of action are explored simultaneously,
each at a speed and to a depth proportional to moment-to-moment
estimates of its promise, and (2) the ability to restructure initial
perceptions -- sometimes radically -- in order to arrive at a deeper,
more essential understanding of a situation. We will also compare our
notion of temperature to similar notions in other computational
frameworks. Finally, an example will be given of how temperature is
used in Copycat's creation of a subtle and insightful analogy.
For copies of this report, send a request for CRCC-89-1
to helga at cogsci.indiana.edu
or to
Helga Keller
Center for Research on Concepts and Cognition
Indiana University
Bloomington, Indiana, 47408
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