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Correlations Between Input and Output Units in Neural Networks

Norman D. Cook

Cognitive Science 19 (4):563-574 (1995)

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Encoding Categorical and Coordinate Spatial Relations Without Input‐Output Correlations: New Simulation Models.David P. Baker, Christopher F. Chabris & Stephen M. Kosslyn - 1999 - Cognitive Science 23 (1):33-51.details Cook (1995) criticized Kosslyn, Chabris, Marsolek & Koenig's (1992) network simulation models of spatial relations encoding in part because the absolute position of a stimulus in the input array was correlated with its spatial relation to a landmark; thus, on at least some trials, the networks did not need to compute spatial relations. The network models reported here include larger input arrays, which allow stimuli to appear in a large range of locations with an equal probability of being above or (...) Download Export citation Bookmark
Neural Network Models as Evidence for Different Types of Visual Representations.Stephen M. Kosslyn, Christopher F. Chabris & David P. Baker - 1995 - Cognitive Science 19 (4):575-579.details Cook (1995) criticizes the work of Jacobs and Kosslyn (1994) on spatial relations, shape representations, and receptive fields in neural network models on the grounds that first‐order correlations between input and output unit activities can explain the results. We reply briefly to Cook's arguments here (and in Kosslyn, Chabris, Marsolek, Jacobs & Koenig, 1995) and discuss how new simulations can confirm the importance of receptive field size as a crucial variable in the encoding of categorical and coordinate spatial relations and (...) Download Export citation Bookmark 1 citation

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