The present study shows the relationship between microsaccades and heading perception. Recent research demonstrates that microsaccades during fixation are necessary to overcome loss of vision due to continuous stimulation of the retinal receptors, even at the potential cost of a decrease in visual acuity. The goal of oculomotor fixational mechanisms might be not retinal stabilization, but controlled image motion adjusted to be optimal for visual processing. Thus, patterns of microsaccades may be exploited to help to understand the oculomotor system, aspects of visual perception, and the dynamics of visual attention. We presented an expansion optic flow in which the dot speed simulated a heading directed to the left or to the right of the subject, who had to signal the perceived heading by making a saccade toward the perceived direction. We recorded microsaccades during the optic flow stimulation to investigate their characteristics before and after the response. The time spent on heading perception was similar between right and left direction, and response latency was shorter during correct than incorrect responses. Furthermore, we observed that correct heading perception is associated with longer, larger and faster microsaccade characteristics. The time-course of microsaccade rate shows a modulation across the perception process similar to that seen for other local perception tasks, while the main direction is oriented toward the opposite side with respect to the perceived heading. Microsaccades enhance visual perception and, therefore, represent a fundamental motor process, with a specific effect for the build-up of global visual perception of space.

Piras, A., Raffi, M., Persiani, M., Perazzolo, M., Squatrito, S. (2016). Effect of heading perception on microsaccade dynamics. BEHAVIOURAL BRAIN RESEARCH, 312, 246-252 [10.1016/j.bbr.2016.06.030].

Effect of heading perception on microsaccade dynamics

PIRAS, ALESSANDRO;RAFFI, MILENA;PERSIANI, MICHELA;PERAZZOLO, MONICA;SQUATRITO, SALVATORE
2016

Abstract

The present study shows the relationship between microsaccades and heading perception. Recent research demonstrates that microsaccades during fixation are necessary to overcome loss of vision due to continuous stimulation of the retinal receptors, even at the potential cost of a decrease in visual acuity. The goal of oculomotor fixational mechanisms might be not retinal stabilization, but controlled image motion adjusted to be optimal for visual processing. Thus, patterns of microsaccades may be exploited to help to understand the oculomotor system, aspects of visual perception, and the dynamics of visual attention. We presented an expansion optic flow in which the dot speed simulated a heading directed to the left or to the right of the subject, who had to signal the perceived heading by making a saccade toward the perceived direction. We recorded microsaccades during the optic flow stimulation to investigate their characteristics before and after the response. The time spent on heading perception was similar between right and left direction, and response latency was shorter during correct than incorrect responses. Furthermore, we observed that correct heading perception is associated with longer, larger and faster microsaccade characteristics. The time-course of microsaccade rate shows a modulation across the perception process similar to that seen for other local perception tasks, while the main direction is oriented toward the opposite side with respect to the perceived heading. Microsaccades enhance visual perception and, therefore, represent a fundamental motor process, with a specific effect for the build-up of global visual perception of space.
2016
Piras, A., Raffi, M., Persiani, M., Perazzolo, M., Squatrito, S. (2016). Effect of heading perception on microsaccade dynamics. BEHAVIOURAL BRAIN RESEARCH, 312, 246-252 [10.1016/j.bbr.2016.06.030].
Piras, Alessandro; Raffi, Milena; Persiani, Michela; Perazzolo, Monica; Squatrito, Salvatore
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/547809
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