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Connections, Binding, Unification and Analogical Promiscuity

Gayler, Ross W. and Wales, Roger (1998) Connections, Binding, Unification and Analogical Promiscuity. [Conference Paper]

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Abstract

This paper claims that higher cognition implemented by a connectionist system will be essentially analogical, with analogical mapping by continuous systematic substitution as the core cognitive process. The centrality of analogy is argued to be necessary in order for a connectionist system to use representations that are effectively symbolic. In turn, these representations are argued to be a necessary consequence of a sequence of broad design decisions needed to address technical problems in adapting a connectionist system for higher cognition. The design decisions are driven by the demands of a paradigmatic cognitive task and the desire to remain faithful to the constraints of connectionist components. Thus, the argument explains the origin of symbolic representations and analogy as necessary consequences of task demands and connectionist processing capabilities.

Item Type:Conference Paper
Keywords:analogy, systematic substitution, higher cognition, connectionist, symbolic, vector representation
Subjects:Psychology > Cognitive Psychology
Computer Science > Neural Nets
ID Code:500
Deposited By: Gayler, Dr Ross
Deposited On:29 Jul 1998
Last Modified:11 Mar 2011 08:54

References in Article

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Anderson, J. A., Silverstein, J. W., Ritz, S. A., & Jones, R. S. (1977). Distinctive features, categorical perception, and probability learning: Some applications of a neural model. Psychological Review, 84, 413-451

Fodor, J. A., & Pylyshyn, Z. W. (1988). Connectionism and cognitive architecture: A critical analysis. Cognition, 28, 3-71.

Gayler, R. W. (1998, July). Multiplicative binding, representation operators, and analogy. Poster session presented at Analogy’98, Sofia, Bulgaria.

Hadley, R. F. (1998). Connectionism and novel combinations of skills: Implications for cognitive architecture (Technical Report SFU CMPT TR 1998-01). Burnaby, Canada: Simon Fraser University, School of Computing Science.

Halford, G. S. (1996) Relational knowledge in higher cognitive processes. In Relational knowledge in higher cognitive processes. Symposium conducted at the XIVth Biennial Meeting of the International Society for the Study of Behavioral Development, Quebec City.

Halford, G. S., Wilson, W. H., Guo, J., Gayler, R. W., Wiles, J., & Stewart, J. E. M. (1994). Connectionist Implications for Processing Capacity Limitations in Analogies. In K. J. Holyoak & J. A. Barnden (Eds.), Advances in connectionist and neural computation theory, Vol. 2: Analogical connections. Norwood, NJ: Ablex.

Holyoak, K. J. & Thagard, P. (1989). Analogical mapping by constraint satisfaction. Cognitive Science, 13, 295-355.

Kanerva, P. (1995). A family of binary spatter codes. In F. Fogelman-Soulié & P. Gallineri (Eds.), ICANN ’95, Proceedings International Conference on Artificial Neural Networks, Vol. 1 (pp. 517-522). Paris, France: EC2 & Cie.

Kanerva, P. (1996). Binary spatter-coding of ordered K-tuples. In C. von der Malsburg, W. von Seelen, J. C. Vorbrüggen, & B. Sendhoff (Eds.), Artificial Neural Networks - ICANN 96 Proceedings 1996 International Conference, Bochum, Germany; Lecture Notes in Computer Science 1112), 869-873. Berlin: Springer.

Kanerva, P. (1997). Fully distributed representation. In Proceedings RWC Symposium 1997 (Tokyo, Japan), 358-365.

Plate, T. A. (1994). Distributed representations and nested compositional structure. Ph.D. thesis, Department of Computer Science, University of Toronto.

Plate, T. A. (1997). Structure matching and transformation with distributed representations. In R. Sun & F. Alexandre (Eds.), Connectionist-Symbolic Integration. Hillsdale, NJ: Lawrence Erlbaum Associates.

Smolensky, P. (1990). Tensor product variable binding and the representation of symbolic structures in connectionist systems. Artificial Intelligence, 46, 159-216.

Touretzky, D. S., & Hinton, G. E. (1988). A distributed connectionist production system. Cognitive Science, 12, 423-466.

Weber, V. (1992). Connectionist unification with a distributed representation. In International Joint Conference on Neural Networks IJCNN’92, Beijing, China, 555-560.

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