Two Visual Systems and Their Eye Movements: a Fixation-Based Event-Related Experiment with Ultrafast fMRI Reconciles Competing Views

Velichkovsky, Boris M.; Korosteleva, Anna; Pannasch, Sebastian; Helmert, Jens R.; Orlov, Vyacheslav A.; Sharaev, Maxim; Velichkovsky, Boris B.; Ushakov, Vadim L.

doi:10.17691/stm2019.11.4.01

Cited by 21 publications

(12 citation statements)

References 10 publications

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“…Functionally, peripheral vision serves to explore a scene, while central vision is used to sequentially analyze regions of interest. This manifests itself in different types of eye movement control, e.g., local and global processing [14][15][16], where global processing is exploratory and characterized by long saccades and short fixation durations, whereas local processing is reflected through short saccades and longer fixation durations required to analyze and identify objects or regions of interest. Object features, such as color, help localize search targets in natural scene peripherally [17], whereas, central vision exploits color to identify targets; contrary to textbook knowledge, color perception is indeed effective for scene processing at mid to high eccentricities (approximately 50 deg.)…”

Section: Introductionmentioning

confidence: 99%

Effects of Transient Loss of Vision on Head and Eye Movements during Visual Search in a Virtual Environment

2020

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Central and peripheral fields of view extract information of different quality and serve different roles during visual tasks. Past research has studied this dichotomy on-screen in conditions remote from natural situations where the scene would be omnidirectional and the entire field of view could be of use. In this study, we had participants looking for objects in simulated everyday rooms in virtual reality. By implementing a gaze-contingent protocol we masked central or peripheral vision (masks of 6 deg. of radius) during trials. We analyzed the impact of vision loss on visuo-motor variables related to fixation (duration) and saccades (amplitude and relative directions). An important novelty is that we segregated eye, head and the general gaze movements in our analyses. Additionally, we studied these measures after separating trials into two search phases (scanning and verification). Our results generally replicate past on-screen literature and teach about the role of eye and head movements. We showed that the scanning phase is dominated by short fixations and long saccades to explore, and the verification phase by long fixations and short saccades to analyze. One finding indicates that eye movements are strongly driven by visual stimulation, while head movements serve a higher behavioral goal of exploring omnidirectional scenes. Moreover, losing central vision has a smaller impact than reported on-screen, hinting at the importance of peripheral scene processing for visual search with an extended field of view. Our findings provide more information concerning how knowledge gathered on-screen may transfer to more natural conditions, and attest to the experimental usefulness of eye tracking in virtual reality.

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Section: Introductionmentioning

confidence: 99%

Effects of Transient Loss of Vision on Head and Eye Movements during Visual Search in a Virtual Environment

2020

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“…The current state of the literature tends to indicate that the observation of complex scenes is modulated by phases of local and global scanning during which visual attention is directed toward behaviours of exploration of the scene and fine analysis of regions of interest respectively ( Tatler & Vincent, 2008 ; Godwin et al., 2014 ; Velichkovsky et al., 2019 ). Another way to see this dichotomy is as ambient and focal visual phases ( Eisenberg & Zacks, 2016 ; Gameiro et al., 2017 ; Ehinger et al., 2018 ).…”

Section: Introductionmentioning

confidence: 99%

What are the visuo-motor tendencies of omnidirectional scene free-viewing in virtual reality?

et al. 2022

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Central and peripheral vision during visual tasks have been extensively studied on two-dimensional screens, highlighting their perceptual and functional disparities. This study has two objectives: replicating on-screen gaze-contingent experiments removing central or peripheral field of view in virtual reality, and identifying visuo-motor biases specific to the exploration of 360 scenes with a wide field of view. Our results are useful for vision modelling, with applications in gaze position prediction (e.g., content compression and streaming). We ask how previous on-screen findings translate to conditions where observers can use their head to explore stimuli. We implemented a gaze-contingent paradigm to simulate loss of vision in virtual reality, participants could freely view omnidirectional natural scenes. This protocol allows the simulation of vision loss with an extended field of view ( 80°) and studying the head's contributions to visual attention. The time-course of visuo-motor variables in our pure free-viewing task reveals long fixations and short saccades during first seconds of exploration, contrary to literature in visual tasks guided by instructions. We show that the effect of vision loss is reflected primarily on eye movements, in a manner consistent with two-dimensional screens literature. We hypothesize that head movements mainly serve to explore the scenes during free-viewing, the presence of masks did not significantly impact head scanning behaviours. We present new fixational and saccadic visuo-motor tendencies in a 360° context that we hope will help in the creation of gaze prediction models dedicated to virtual reality.

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“…In both cases, we have observed activation of prefrontal brain. However, subject 1 shows bilateral activation of frontopolar zones ( Figure 14 ), when subject 2 demonstrates activation of the right orbitofrontal field ( Figure 15 ) more suitable for purely emotional processing [ 14 ].…”

Section: Resultsmentioning

confidence: 99%

Towards Semantic Brain Mapping Methodology Based on a Multidimensional Markup of Continuous Russian-Language Texts: an Attempt at Validation and Development

Velichkovsky¹,

Заботкина²,

Nosovets³

et al. 2020

Sovrem Tehnol Med

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Two Visual Systems and Their Eye Movements: a Fixation-Based Event-Related Experiment with Ultrafast fMRI Reconciles Competing Views

Cited by 21 publications

References 10 publications

Effects of Transient Loss of Vision on Head and Eye Movements during Visual Search in a Virtual Environment

Effects of Transient Loss of Vision on Head and Eye Movements during Visual Search in a Virtual Environment

What are the visuo-motor tendencies of omnidirectional scene free-viewing in virtual reality?

Towards Semantic Brain Mapping Methodology Based on a Multidimensional Markup of Continuous Russian-Language Texts: an Attempt at Validation and Development

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