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Filtering eye-tracking data from an EyeLink 1000: Comparing heuristic, savitzky-golay, IIR and FIR digital filters

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

2023Journal of Eye Movement Research12 citationsDOIOpen Access PDF

Abstract

In a prior report (Raju et al., 2023) we concluded that, if the goal was to preserve events such as saccades, microsaccades, and smooth pursuit in eye-tracking recordings, data with sine wave frequencies less than 75 Hz were the signal and data above 75 Hz were noise. Here, we compare five filters in their ability to preserve signal and remove noise. We compared the proprietary STD and EXTRA heuristic filters provided by our EyeLink 1000 (SR-Research, Ottawa, Canada), a Savitzky- Golay (SG) filter, an infinite impulse response (IIR) filter (low-pass Butterworth), and a finite impulse filter (FIR). For each of the non-heuristic filters, we systematically searched for optimal parameters. Both the IIR and the FIR filters were zero-phase filters. All filters were evaluated on 216 fixation segments (256 samples), from nine subjects. Mean frequency response profiles and amplitude spectra for all five filters are provided. Also, we examined the effect of our filters on a noisy recording. Our FIR filter had the sharpest roll-off of any filter. Therefore, it maintained the signal and removed noise more effectively than any other filter. On this basis, we recommend the use of our FIR filter. We also report on the effect of these filters on temporal autocorrelation.

Topics & Concepts

Finite impulse responseInfinite impulse responseRoot-raised-cosine filterComputer scienceLow-pass filterDigital filterFilter (signal processing)Filter designAlgorithmButterworth filterPrototype filterMathematicsComputer visionGaze Tracking and Assistive TechnologyGlaucoma and retinal disordersVisual perception and processing mechanisms
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