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Towards a computational theory of experience

Conscious Cogn. 2011 Sep;20(3):807-27. doi: 10.1016/j.concog.2011.02.010. Epub 2011 Mar 8.

Abstract

A standing challenge for the science of mind is to account for the datum that every mind faces in the most immediate--that is, unmediated--fashion: its phenomenal experience. The complementary tasks of explaining what it means for a system to give rise to experience and what constitutes the content of experience (qualia) in computational terms are particularly challenging, given the multiple realizability of computation. In this paper, we identify a set of conditions that a computational theory must satisfy for it to constitute not just a sufficient but a necessary, and therefore naturalistic and intrinsic, explanation of qualia. We show that a common assumption behind many neurocomputational theories of the mind, according to which mind states can be formalized solely in terms of instantaneous vectors of activities of representational units such as neurons, does not meet the requisite conditions, in part because it relies on inactive units to shape presently experienced qualia and implies a homogeneous representation space, which is devoid of intrinsic structure. We then sketch a naturalistic computational theory of qualia, which posits that experience is realized by dynamical activity-space trajectories (rather than points) and that its richness is measured by the representational capacity of the trajectory space in which it unfolds.

MeSH terms

  • Cognition
  • Computational Biology
  • Computer Simulation*
  • Humans
  • Life Change Events*
  • Neural Networks, Computer*