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Lam, Roberto

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5A1D-9724-50B5
0000-0003-4297-2441

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2005 - 20063
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Author: du Buf, J. M. H. × Subject: Córtex visual ×

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Now showing 1 - 3 of 3
  • Building the what and where systems: multi-scale lines, edges and keypoints
    Publication . Rodrigues, J. M. F.; Almeida, D.; Nunes, S.; Lam, Roberto; du Buf, J. M. H.
    Computer vision for realtime applications requires tremendous computational power because all images must be processed from the first to the last pixel. Ac tive vision by probing specific objects on the basis of already acquired context may lead to a significant reduction of processing. This idea is based on a few concepts from our visual cortex (Rensink, Visual Cogn. 7, 17-42, 2000): (1) our physical surround can be seen as memory, i.e. there is no need to construct detailed and complete maps, (2) the bandwidth of the what and where systems is limited, i.e. only one object can be probed at any time, and (3) bottom-up, low-level feature extraction is complemented by top-down hypothesis testing, i.e. there is a rapid convergence of activities in dendritic/axonal connections.
    2005Journal article Open access Show more
  • Artistic rendering of the visual cortex
    Publication . Lam, Roberto; Rodrigues, J. M. F.; du Buf, J. M. H.
    In this paper we explain the processing in the first layers of the visual cortex by simple, complex and endstopped cells, plus grouping cells for line, edge, keypoint and saliency detection. Three visualisations are presented: (a) an integrated scheme that shows activities of simple, complex and end-stopped cells, (b) artistic combinations of selected activity maps that give an impression of global image structure and/or local detail, and (c) NPR on the basis of a 2D brightness model. The cortical image representations offer many possibilities for non-photorealistic rendering.
    2005Journal article Open access Show more
  • Looking through the eyes of the painter: from visual perception to non-photorealistic rendering
    Publication . Lam, Roberto; Rodrigues, J. M. F.; du Buf, J. M. H.
    In this paper we present a brief overview of the processing in the primary visual cortex, the multi-scale line/edge and keypoint representations, and a model of brightness perception. This model, which is being extended from 1D to 2D, is based on a symbolic line and edge interpretation: lines are represented by scaled Gaussians and edges by scaled, Gaussian-windowed error functions. We show that this model, in combination with standard techniques from graphics, provides a very fertile basis for non-photorealistic image rendering.
    2006Journal article Open access Show more