Perceiving geometric patterns: From spirals to inside/outside relations

Ke Chen; D Wang

doi:10.1109/72.950138

Perceiving geometric patterns: From spirals to inside/outside relations

Ke Chen
, D Wang

Computer Science

Research output: Contribution to journal › Article

15 Citations (Scopus)

Abstract

Since first proposed by Minsky and Papert, the spiral problem is well known in neural networks. It receives much attention as a benchmark for various learning algorithms. Unlike previous work that emphasizes learning, we approach the problem from a different perspective. We point out that the spiral problem is intrinsically connected to the inside-outside problem proposed by Ullman. We propose a solution to both problems based on oscillatory correlation using a time-delay network. Our simulation results are qualitatively consistent with human performance, and we interpret human limitations in terms of synchrony and time delays. As a special case, our network without time delays can always distinguish these figures regardless of shape, position, size, and orientation.

Original language	English
Pages (from-to)	1084-1102
Number of pages	19
Journal	IEEE Transactions on Neural Networks
Volume	12
Issue number	5
DOIs	https://doi.org/10.1109/72.950138
Publication status	Published - 1 Jan 2001

Keywords

spiral problem
geometric patterns
time delays
oscillatory correlation
desynchronization
visual perception
LEGION
inside-outside relations
synchronization

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10.1109/72.950138

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abstract = "Since first proposed by Minsky and Papert, the spiral problem is well known in neural networks. It receives much attention as a benchmark for various learning algorithms. Unlike previous work that emphasizes learning, we approach the problem from a different perspective. We point out that the spiral problem is intrinsically connected to the inside-outside problem proposed by Ullman. We propose a solution to both problems based on oscillatory correlation using a time-delay network. Our simulation results are qualitatively consistent with human performance, and we interpret human limitations in terms of synchrony and time delays. As a special case, our network without time delays can always distinguish these figures regardless of shape, position, size, and orientation.",

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N2 - Since first proposed by Minsky and Papert, the spiral problem is well known in neural networks. It receives much attention as a benchmark for various learning algorithms. Unlike previous work that emphasizes learning, we approach the problem from a different perspective. We point out that the spiral problem is intrinsically connected to the inside-outside problem proposed by Ullman. We propose a solution to both problems based on oscillatory correlation using a time-delay network. Our simulation results are qualitatively consistent with human performance, and we interpret human limitations in terms of synchrony and time delays. As a special case, our network without time delays can always distinguish these figures regardless of shape, position, size, and orientation.

AB - Since first proposed by Minsky and Papert, the spiral problem is well known in neural networks. It receives much attention as a benchmark for various learning algorithms. Unlike previous work that emphasizes learning, we approach the problem from a different perspective. We point out that the spiral problem is intrinsically connected to the inside-outside problem proposed by Ullman. We propose a solution to both problems based on oscillatory correlation using a time-delay network. Our simulation results are qualitatively consistent with human performance, and we interpret human limitations in terms of synchrony and time delays. As a special case, our network without time delays can always distinguish these figures regardless of shape, position, size, and orientation.

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KW - time delays

KW - oscillatory correlation

KW - desynchronization

KW - visual perception

KW - LEGION

KW - inside-outside relations

KW - synchronization

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JO - IEEE Transactions on Neural Networks

JF - IEEE Transactions on Neural Networks

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Perceiving geometric patterns: From spirals to inside/outside relations

Abstract

Keywords

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