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SPS
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Selective visuo-spatial attention (SVSA), consisting of both bottom-up and top-down processes, prioritizes relevant visual information while filtering out the rest. The research interests in SVSA tend to shift from isolating the two processes to depicting the interplay between them. Existing studies have highlighted the combination of computational, behavioral, and naturalistic paradigm neuroimaging enables the study of SVSA in ecologically valid contexts. However, several critical issues need to be revisited. First, the computational visual saliency model that bridges external video stimuli and brain activities in previous studies are designed for static images rather than dynamic videos. Second, both the computational saliency maps and the eye-gaze heatmaps could be noisy. Third, the participant cohort is relatively small. In this study, we investigate the SVSA using the large-scale movie-watching functional magnetic resonance imaging (fMRI) data in the Human Connectome Project (HCP), and by integrating the potential solutions to the limitations discussed above. Our experimental results highlight the importance of visual and auditory interactions in forming the bottom-up visual attention, as well as the engagement of high-order visual cortices and the ventral frontoparietal network in the bottom-up modulatory effect in naturalistic conditions.