The Emergence of Organizing Structure in Conceptual Representation

Author(s)

Tenenbaum, Joshua B

Abstract

Both scientists and children make important structural discoveries, yet their computational underpinnings are not well understood. Structure discovery has previously been formalized as probabilistic inference about the right structural form—where form could be a tree, ring, chain, grid, etc. (Kemp & Tenenbaum, 2008). Although this approach can learn intuitive organizations, including a tree for animals and a ring for the color circle, it assumes a strong inductive bias that considers only these particular forms, and each form is explicitly provided as initial knowledge. Here we introduce a new computational model of how organizing structure can be discovered, utilizing a broad hypothesis space with a preference for sparse connectivity. Given that the inductive bias is more general, the model's initial knowledge shows little qualitative resemblance to some of the discoveries it supports. As a consequence, the model can also learn complex structures for domains that lack intuitive description, as well as predict human property induction judgments without explicit structural forms. By allowing form to emerge from sparsity, our approach clarifies how both the richness and flexibility of human conceptual organization can coexist.

Date issued

2018-06

URI

https://hdl.handle.net/1721.1/126608

Department

Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences

Journal

Cognitive science

Publisher

Wiley-Blackwell

Citation

Lake, Brenden M., Neil D. Lawrence, and Joshua B. Tenenbaum. “The Emergence of Organizing Structure in Conceptual Representation.” , vol. 42, no. S3, 2018, pp. 809-832 © 2018 The Author(s)

Version: Original manuscript

ISSN

0364-0213