D.M. Ryder scite author profile

I present an account of mental representation based upon the 'SINBAD' theory of the cerebral cortex. If the SINBAD theory is correct, then networks of pyramidal cells in the cerebral cortex are appropriately described as representing, or more specifically, as modelling the world. I propose that SINBAD representation reveals the nature of the kind of mental representation found in human and animal minds, since the cortex is heavily implicated in these kinds of minds. Finally, I show how SINBAD neurosemantics can provide accounts of misrepresentation, equivocal representation, twin cases, and Frege cases.

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Pennsylvanian (Late Carboniferous) Echinoids From the Winchell Formation, North-Central Texas, Usa

Schneider

Sprinkle

Ryder³

2005

Journal of Paleontology

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The mysteries of multifactor ageing

Agarwal

Banford

Bernstein

et al. 1995

IEEE Electr. Insul. Mag.

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Comparison between photo- and electro-induced luminescence spectra of polyethylene

Laurent

Massines

Mayoux

et al.

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SINBAD: A neocortical mechanism for discovering environmental variables and regularities hidden in sensory input

Favorov

Ryder

2004

Biological Cybernetics

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We propose that a top priority of the cerebral cortex must be the discovery and explicit representation of the environmental variables that contribute as major factors to environmental regularities. Any neural representation in which such variables are represented only implicitly (thus requiring extra computing to use them) will make the regularities more complex and therefore more difficult, if not impossible, to learn. The task of discovering such important environmental variables is not an easy one since their existence is only indirectly suggested by the sensory input patterns the cortex receives--these variables are "hidden". We present a candidate computational strategy for (i) discovering regularity-simplifying environmental variables, (ii) learning the regularities, and (iii) using regularities in perceptual and decision-making tasks. The SINBAD computational model discovers useful environmental variables through a search for different, but nevertheless highly correlated, functions of any kind over nonoverlapping subsets of the known variables, this being indicative of some important environmental variable that is responsible for the correlation. We suggest that such a search is performed in the neocortex by the dendritic trees of individual pyramidal cells. According to the SINBAD model, the basic function of each pyramidal cell is to (i) discover and represent one of the regularity-simplifying environmental variables and (ii) learn to infer the state of its variable from the states of other variables, represented by other pyramidal cells. A network of such cells--each cell just attending to representation of its variable--can function as a sophisticated and useful inferential model of the outside world.

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D.M. Ryder

SINBAD Neurosemantics: A Theory of Mental Representation

Pennsylvanian (Late Carboniferous) Echinoids From the Winchell Formation, North-Central Texas, Usa

The mysteries of multifactor ageing

Comparison between photo- and electro-induced luminescence spectra of polyethylene

SINBAD: A neocortical mechanism for discovering environmental variables and regularities hidden in sensory input

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