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The increasing employment of eye-tracking technology in different application areas and in vision research has led to an increased need to measure fast eye-movement events. Whereas the cost of commercial high-speed eye trackers above Hz is usually in the tens of thousands of EUR, to date, only a small number of studies have proposed low-cost solutions. Existing low-cost solutions however, focus solely on lower frame rates up to Hz that might suffice for basic eye tracking, leaving a gap when it comes to the investigation of high-speed saccadic eye movements. In this paper, we present and evaluate a system designed to track such high-speed eye movements, achieving operating frequencies well beyond Hz.

We use cookies and website tracking tools to provide you with the best online experience. The central goal of our laboratory is to investigate how cognition and behavior emerges from dynamic interactions across widely distributed neuronal ensembles. How do sophisticated cognitive processes such as perception, decision-making, and motor behavior emerge from dynamic interactions across the brain? Which neural mechanisms coordinate these interactions, how are they dynamically regulated in a goal-directed fashion, and how are these interactions disturbed in neuropsychiatric diseases? To address these questions, we apply an interdisciplinary multi-scale approach and link large-scale population measures of neuronal activity to circuit and cellular-level mechanisms.