Abstract
Humans and other primates are equipped with a foveated visual system. As a consequence, we reorient our fovea to objects and targets in the visual field that are conspicuous or that we consider relevant or worth looking at. These reorientations are achieved by means of saccadic eye movements. Where we saccade to depends on various low-level factors such as a targets’ luminance but also crucially on high-level factors like the expected reward or a targets’ relevance for perception and subsequent behavior. Here, we review recent findings how the control of saccadic eye movements is influenced by higher-level cognitive processes. We first describe the pathways by which cognitive contributions can influence the neural oculomotor circuit. Second, we summarize what saccade parameters reveal about cognitive mechanisms, particularly saccade latencies, saccade kinematics and changes in saccade gain. Finally, we review findings on what renders a saccade target valuable, as reflected in oculomotor behavior. We emphasize that foveal vision of the target after the saccade can constitute an internal reward for the visual system and that this is reflected in oculomotor dynamics that serve to quickly and accurately provide detailed foveal vision of relevant targets in the visual field.
Highlights
The visual system of humans and other primates is characterized by a clear division of labor: Whereas the central part of the visual field, the fovea, can process fine visual details, peripheral acuity declines rapidly with increasing eccentricity
We emphasize that foveal vision of the target after the saccade can constitute an internal reward for the visual system and that this is reflected in oculomotor dynamics that serve to quickly and accurately provide detailed foveal vision of relevant targets in the visual field
We summarized how the control of saccadic eye movements is affected by higher-level mechanisms, by reward, task-relevance, and image content, and we emphasized that foveal vision of the target can constitute an internal reward that can be reflected in oculomotor behavior
Summary
The visual system of humans and other primates is characterized by a clear division of labor: Whereas the central part of the visual field, the fovea, can process fine visual details, peripheral acuity declines rapidly with increasing eccentricity. Determining the identity of a target could only be achieved in higher cortical areas of the oculomotor network These cortical sites provide direct excitatory input to the SC that sets up the target for the eye movement as well as indirect inhibitory input to the SC via the basal ganglia. The latter prevent the superior colliculus from responding too early until a better analysis of what to look at is carried out (for review see Hikosaka et al 2000). For these and other topics, we refer the reader to several excellent review articles (Gegenfurtner 2016; Hutton 2008; Rolfs 2009; Rucci and Poletti 2015; Schutz et al 2011; Spering and Montagnini 2011; Tatler et al 2011)
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