Improving Neural Saliency Prediction with a Cognitive Model of Human Visual Attention
Ekta Sood,
Lei Shi,
Matteo Bortoletto,
Yao Wang,
Philipp Müller,
Andreas Bulling
Proc. the 45th Annual Meeting of the Cognitive Science Society (CogSci),
pp. 3639–3646,
2023.
Abstract
Links
BibTeX
Project
We present a novel method for saliency prediction that leverages a cognitive model of visual attention as an inductive bias. This approach is in stark contrast to recent purely data-driven saliency models that achieve performance improvements mainly by increased capacity, resulting in high computational costs and the need for large-scale training datasets. We demonstrate that by using a cognitive model, our method achieves competitive performance to the state of the art across several natural image datasets while only requiring a fraction of the parameters. Furthermore, we set the new state of the art for saliency prediction on information visualizations, demonstrating the effectiveness of our approach for cross-domain generalization. We further provide augmented versions of the full MSCOCO dataset with synthetic gaze data using the cognitive model, which we used to pre-train our method. Our results are highly promising and underline the significant potential of bridging between cognitive and data-driven models, potentially also beyond attention.
@inproceedings{sood23_cogsci,
author = {Sood, Ekta and Shi, Lei and Bortoletto, Matteo and Wang, Yao and Müller, Philipp and Bulling, Andreas},
title = {Improving Neural Saliency Prediction with a Cognitive Model of Human Visual Attention},
booktitle = {Proc. the 45th Annual Meeting of the Cognitive Science Society (CogSci)},
year = {2023},
pages = {3639--3646}
}