The Role of Top-Down and Bottom-up Processes in Guiding Eye Movements During Visual Search
Abstract
To investigate how top-down (TD) and bottom-up (BU) information is weighted in the guidance of human search behavior, we manipulated the proportions of BU and TD components in a saliency-based model. The model is biologically plausible and implements an artificial retina and a neuronal population code. The BU component is based on feature- contrast. The TD component is defined by a feature-template match to a stored target representation. We compared the model’s behavior at differ- ent mixtures of TD and BU components to the eye movement behavior of human observers performing the identical search task. We found that a purely TD model provides a much closer match to human behavior than any mixture model using BU information. Only when biological con- straints are removed (e.g., eliminating the retina) did a BU/TD mixture model begin to approximate human behavior.
Cite
Text
Zelinsky et al. "The Role of Top-Down and Bottom-up Processes in Guiding Eye Movements During Visual Search." Neural Information Processing Systems, 2005.Markdown
[Zelinsky et al. "The Role of Top-Down and Bottom-up Processes in Guiding Eye Movements During Visual Search." Neural Information Processing Systems, 2005.](https://mlanthology.org/neurips/2005/zelinsky2005neurips-role/)BibTeX
@inproceedings{zelinsky2005neurips-role,
title = {{The Role of Top-Down and Bottom-up Processes in Guiding Eye Movements During Visual Search}},
author = {Zelinsky, Gregory and Zhang, Wei and Yu, Bing and Chen, Xin and Samaras, Dimitris},
booktitle = {Neural Information Processing Systems},
year = {2005},
pages = {1569-1576},
url = {https://mlanthology.org/neurips/2005/zelinsky2005neurips-role/}
}