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Main Authors: Hari, Kamya, Binhuraib, Taha, Li, Jin, Shain, Cory, Ivanova, Anna A.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.24942
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author Hari, Kamya
Binhuraib, Taha
Li, Jin
Shain, Cory
Ivanova, Anna A.
author_facet Hari, Kamya
Binhuraib, Taha
Li, Jin
Shain, Cory
Ivanova, Anna A.
contents Encoding models provide a powerful framework for linking continuous stimulus features to neural activity; however, traditional voxelwise approaches are limited by measurement noise, inter-subject variability, and redundancy arising from spatially correlated voxels encoding overlapping neural signals. Here, we propose an independent component (IC)-based encoding framework that dissociates stimulus-driven and noise-driven signals in fMRI data. We decompose continuous fMRI data from naturalistic story listening into ICs using one subset of the data, and train encoding models on independent data to predict IC time series from large language model representations of linguistic input. Across subjects, a subset of ICs exhibited consistently high predictivity. These ICs were spatially and temporally consistent across subjects and included cognitive networks known to respond during story listening (auditory and language). Auditory component time series were strongly correlated with acoustic stimulus features, highlighting the interpretability of identified component time series. Components identified as noise or motion-related artifacts by ICA-AROMA showed uniformly poor predictive performance, confirming that highly predicted components reflect genuine stimulus-related neural signals rather than confounds. Overall, IC-based encoding models enable analyses at the level of functional networks, accommodating the variability in network locations across individuals and providing interpretable results that are easy to compare across subjects.
format Preprint
id arxiv_https___arxiv_org_abs_2604_24942
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Independent-Component-Based Encoding Models of Brain Activity During Story Comprehension
Hari, Kamya
Binhuraib, Taha
Li, Jin
Shain, Cory
Ivanova, Anna A.
Computation and Language
Neurons and Cognition
Encoding models provide a powerful framework for linking continuous stimulus features to neural activity; however, traditional voxelwise approaches are limited by measurement noise, inter-subject variability, and redundancy arising from spatially correlated voxels encoding overlapping neural signals. Here, we propose an independent component (IC)-based encoding framework that dissociates stimulus-driven and noise-driven signals in fMRI data. We decompose continuous fMRI data from naturalistic story listening into ICs using one subset of the data, and train encoding models on independent data to predict IC time series from large language model representations of linguistic input. Across subjects, a subset of ICs exhibited consistently high predictivity. These ICs were spatially and temporally consistent across subjects and included cognitive networks known to respond during story listening (auditory and language). Auditory component time series were strongly correlated with acoustic stimulus features, highlighting the interpretability of identified component time series. Components identified as noise or motion-related artifacts by ICA-AROMA showed uniformly poor predictive performance, confirming that highly predicted components reflect genuine stimulus-related neural signals rather than confounds. Overall, IC-based encoding models enable analyses at the level of functional networks, accommodating the variability in network locations across individuals and providing interpretable results that are easy to compare across subjects.
title Independent-Component-Based Encoding Models of Brain Activity During Story Comprehension
topic Computation and Language
Neurons and Cognition
url https://arxiv.org/abs/2604.24942