Paper List

期刊: ArXiv Preprint
发布日期: 2026-03-12
Computational NeuroscienceNeuroimaging

Neural network-based encoding in free-viewing fMRI with gaze-aware models

Donders Institute for Brain, Cognition and Behaviour, Radboud University, Nijmegen, the Netherlands | Martin Luther University Halle-Wittenberg, Medical Faculty, Halle, Germany | Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany

Dora Gözükara, Nasir Ahmad, Katja Seeliger, Djamari Oetringer, Linda Geerligs
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IN SHORT: This paper addresses the core challenge of building computationally efficient and ecologically valid brain encoding models for naturalistic vision by integrating individual gaze patterns with CNN features, eliminating the need for restrictive fixation protocols.

核心创新

  • Methodology Proposes gaze-aware encoding models that sample CNN features based on individual eye-tracking data, reducing model parameters by 112× while maintaining predictive performance.
  • Methodology Introduces a hyperlayer feature map approach that combines features from multiple CNN layers into a unified representation with fixed spatial dimensions (7×16).
  • Biology Demonstrates that gaze-aware models are particularly beneficial for participants with more dynamic eye-movement patterns, highlighting individual differences in visual processing.

主要结论

  • Gaze-aware encoding models achieved comparable performance to conventional models while using only 1,472 features per TR (112× parameter reduction, p<0.05 after FDR correction).
  • Models reduced working memory requirements from 15.6 GB to 419 MB (37× reduction), making them feasible on standard laptops rather than requiring HPC resources.
  • Performance improvements were most pronounced in participants with dynamic eye-movement patterns, with significant correlations in visual areas V1-V3, lateral occipital, fusiform gyri, and superior temporal sulcus.
研究空白: Current CNN-based brain encoding models rely on fixation protocols that suppress natural eye movements, reduce ecological validity, and require large parameter spaces (164,864 features per TR). This creates computational burdens and limits applicability to real-world scenarios.

摘要: Representations learned by convolutional neural networks (CNNs) exhibit a remarkable resemblance to information processing patterns observed in the primate visual system on large neuroimaging datasets collected under diverse, naturalistic visual stimulation, but with instruction for participants to maintain central fixation. This viewing condition, however, diverges significantly from ecologically valid visual behaviour, suppresses activity in visually active regions, and imposes substantial cognitive load on the viewing task. We present a modification of the encoding model framework, adapting it for use with naturalistic vision datasets acquired under fully natural viewing conditions, without fixation, by incorporating eye-tracking data. Our gaze-aware encoding models were trained on the StudyForrest dataset, which features task-free naturalistic movie viewing. By combining eye-tracking data with the visual content of movie frames, we generate combined subject-wise gaze-stimulus specific feature time series. These time series are constructed by sampling only the locally and temporally relevant elements of the CNN feature map for each fixation. Our results demonstrate that gaze-aware encoding models match the performance of conventional encoding models with 112× fewer model parameters. Gaze-aware encoding models were especially beneficial for participants with more dynamic eye-movement patterns. Therefore, this approach opens the door to more ecologically valid models that can be built in more naturalistic settings, such as playing games or navigating virtual environments.

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