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The Rapid Recovery of Three-Dimensional Structure from Line Drawings
Dissertation, University of British Columbia (1992)
Abstract
A computational theory is developed that explains how line drawings of polyhedral objects can be interpreted rapidly and in parallel at early levels of human vision. The key idea is that a time-limited process can correctly recover much of the three-dimensional structure of these objects when split into concurrent streams, each concerned with a single aspect of scene structure.Author's Profile
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Citations of this work
Preemption effects in visual search: Evidence for low-level grouping.Ronald A. Rensink & James T. Enns - 1995 - Psychological Review 102 (1):101-130.
Early completion of occluded objects.Ronald A. Rensink & James T. Enns - 1998 - Vision Research 38:2489-2505.
On the failure to detect changes in scenes across brief interruptions.Ronald A. Rensink, Kevin J. O'Regan & James J. Clark - 2000 - Visual Cognition 7 (1/2/3):127-145.
The world, the brain, and the speed of sight.Ronald A. Rensink - 1996 - In David C. Knill & Whitman Richards (eds.), Perception as Bayesian Inference. Cambridge University Press. pp. 495-498.
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