A Hierarchical Model of Complex Cells in Visual Cortex for the Binocular Perception of Motion-in-Depth

Silvio P. Sabatini, Fabio Solari, Giulia Andreani, Chiara Bartolozzi, Giacomo M. Bisio

NeurIPS 2001 pp. 1271-1278

/neurips/2001/sabatini2001neurips-hierarchical/

Abstract

A cortical model for motion-in-depth selectivity of complex cells in the visual cortex is proposed. The model is based on a time ex(cid:173) tension of the phase-based techniques for disparity estimation. We consider the computation of the total temporal derivative of the time-varying disparity through the combination of the responses of disparity energy units. To take into account the physiological plau(cid:173) sibility, the model is based on the combinations of binocular cells characterized by different ocular dominance indices. The resulting cortical units of the model show a sharp selectivity for motion-in(cid:173) depth that has been compared with that reported in the literature for real cortical cells.

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Text

Sabatini et al. "A Hierarchical Model of Complex Cells in Visual Cortex for the Binocular Perception of Motion-in-Depth." Neural Information Processing Systems, 2001.

Markdown

[Sabatini et al. "A Hierarchical Model of Complex Cells in Visual Cortex for the Binocular Perception of Motion-in-Depth." Neural Information Processing Systems, 2001.](https://mlanthology.org/neurips/2001/sabatini2001neurips-hierarchical/)

BibTeX

@inproceedings{sabatini2001neurips-hierarchical,
  title     = {{A Hierarchical Model of Complex Cells in Visual Cortex for the Binocular Perception of Motion-in-Depth}},
  author    = {Sabatini, Silvio P. and Solari, Fabio and Andreani, Giulia and Bartolozzi, Chiara and Bisio, Giacomo M.},
  booktitle = {Neural Information Processing Systems},
  year      = {2001},
  pages     = {1271-1278},
  url       = {https://mlanthology.org/neurips/2001/sabatini2001neurips-hierarchical/}
}