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Determining which sine wave frequencies correspond to signal and which correspond to noise in eye-tracking time-series

Mehedi Hasan Raju, Lee Friedman, Troy Bouman, Oleg V. Komogortsev

2023Journal of Eye Movement Research11 citationsDOIOpen Access PDF

Abstract

The Fourier theorem states that any time-series can be decomposed into a set of sinusoidal frequencies, each with its own phase and amplitude. The literature suggests that some frequencies are important to reproduce key qualities of eye-movements ("signal") and some of frequencies are not important ("noise"). To investigate what is signal and what is noise, we analyzed our dataset in three ways: (1) visual inspection of plots of saccade, microsaccade and smooth pursuit exemplars; (2) analysis of the percentage of variance accounted for (PVAF) in 1,033 unfiltered saccade trajectories by each frequency band; (3) analyzing the main sequence relationship between saccade peak velocity and amplitude, based on a power law fit. Visual inspection suggested that frequencies up to 75 Hz are required to represent microsaccades. Our PVAF analysis indicated that signals in the 0-25 Hz band account for nearly 100% of the variance in saccade trajectories. Power law coefficients (a, b) return to unfiltered levels for signals low-pass filtered at 75 Hz or higher. We conclude that to maintain eyemovement signal and reduce noise, a cutoff frequency of 75 Hz is appropriate. We explain why, given this finding, a minimum sampling rate of 750 Hz is suggested.

Topics & Concepts

SaccadeNoise (video)SIGNAL (programming language)AmplitudeSine waveEye movementAcousticsMicrosaccadeSeries (stratigraphy)Computer scienceMathematicsArtificial intelligencePhysicsOpticsGeologySaccadic maskingVoltagePaleontologyImage (mathematics)Programming languageQuantum mechanicsGaze Tracking and Assistive TechnologyEEG and Brain-Computer InterfacesVisual perception and processing mechanisms
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