Results 11 to 20 of about 314 (124)
Serial dependence in orientation judgments at the time of saccades. [PDF]
J Vis, 2023 We actively seek information from the environment through saccadic eye movements, necessitating continual integration of presaccadic and postsaccadic signals, which are displaced on the retina by each saccade. We tested whether trans-saccadic integration
Xie XY, Morrone MC, Burr DC.
europepmc +6 more sources
Is mislocalization during saccades related to the position of the saccade target within the image or to the gaze position at the end of the saccade? [PDF]
PLoS One, 2013 A stimulus that is flashed around the time of a saccade tends to be mislocalized in the direction of the saccade target. Our question is whether the mislocalization is related to the position of the saccade target within the image or to the gaze position
Matziridi M, Brenner E, Smeets JB.
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Visual mislocalization during double-step saccades. [PDF]
Front Syst Neurosci, 2015 Visual objects presented briefly at the time of saccade onset appear compressed toward the saccade target. Compression strength depends on the presentation of a visual saccade target signal and is strongly reduced during the second saccade of a double ...
Zimmermann E.
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Saccades Influence the Visibility of Targets in Rapid Stimulus Sequences: The Roles of Mislocalization, Retinal Distance and Remapping. [PDF]
Front Syst Neurosci, 2016 Briefly presented targets around the time of a saccade are mislocalized towards the saccadic landing point. This has been taken as evidence for a remapping mechanism that accompanies each eye movement, helping maintain visual stability across large ...
Fracasso A, Melcher D.
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Perception during double-step saccades. [PDF]
Sci Rep, 2018 How the visual system achieves perceptual stability across saccadic eye movements is a long-standing question in neuroscience. It has been proposed that an efference copy informs vision about upcoming saccades, and this might lead to shifting spatial ...
Zimmermann E, Morrone MC, Binda P.
europepmc +4 more sources
Perisaccadic Mislocalization Orthogonal to Saccade Direction [PDF]
Neuron, 2004 Saccadic eye movements transiently distort perceptual space. Visual objects flashed shortly before or during a saccade are mislocalized along the saccade direction, resembling a compression of space around the saccade target. These mislocalizations reflect transient errors of processes that construct spatial stability across eye movements.
Kaiser M, Lappe M
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Neural Correlates of Visual Localization and Perisaccadic Mislocalization [PDF]
Neuron, 2003 While reading this text, your eyes jump from word to word. Yet you are unaware of the motion this causes on your retina; the brain somehow compensates for these displacements and creates a stable percept of the world. This compensation is not perfect; perisaccadically, perceptual space is distorted.
Krekelberg, Bart +3 more
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Perisaccadic perceptual mislocalization is different for upward saccades [PDF]
Journal of Neurophysiology, 2017 Saccadic eye movements, which dramatically alter retinal images, are associated with robust perimovement perceptual alterations. Such alterations, thought to reflect brain mechanisms for maintaining perceptual stability in the face of saccade-induced retinal image disruptions, are often studied by asking subjects to localize brief stimuli presented ...
Grujic, Nikola +4 more
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Perisaccadic mislocalization as optimal percept
Journal of Vision, 2010 The spatially uniform mislocalization of stimuli flashed around the onset of fast eye-movements (perisaccadic shift) has previously been explained by an inaccurate internal representation of current eye position. However, this hypothesis does not account for the observation that continuously presented stimuli are correctly localized during saccades ...
Tobias, Teichert +3 more
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Mislocalization of Perceived Saccade Target Position Induced by Perisaccadic Visual Stimulation [PDF]
The Journal of Neuroscience, 2006 The perceptual localization of objects flashed at the time of a saccade often shows large spatial distortions. These perisaccadic mislocalizations exhibit different spatial patterns depending on the experimental condition. In darkness, when only extraretinal information is available, mislocalization is spatially uniform.
Holger, Awater, Markus, Lappe
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