Safe and sensible preprocessing and baseline correction of pupil-size data
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Sebastiaan Mathôt | Stefan Van der Stigchel | Jasper Fabius | Elle Van Heusden | E. van Heusden | S. van der Stigchel | J. Fabius | S. Mathôt
[1] B. Laeng,et al. The Eye Pupil Adjusts to Imaginary Light , 2014, Psychological science.
[2] Juan Antonio Madrid,et al. Relationship between Human Pupillary Light Reflex and Circadian System Status , 2016, PloS one.
[3] Paul D. Gamlin,et al. 1.26 – Pupillary Control Pathways , 2008 .
[4] Sylvain Sirois,et al. Pupil diameter measurement errors as a function of gaze direction in corneal reflection eyetrackers , 2013, Behavior research methods.
[5] G. Woodman. A brief introduction to the use of event-related potentials in studies of perception and attention. , 2010, Attention, perception & psychophysics.
[6] T. Troscianko,et al. Effort during visual search and counting: Insights from pupillometry , 2007, Quarterly journal of experimental psychology.
[7] E. Schröger,et al. High-pass filters and baseline correction in M/EEG analysis. Commentary on: “How inappropriate high-pass filters can produce artefacts and incorrect conclusions in ERP studies of language and cognition” , 2016, Journal of Neuroscience Methods.
[8] J. Grainger,et al. The Pupillary Light Response Reveals the Focus of Covert Visual Attention , 2013, PloS one.
[9] Sebastiaan Mathôt,et al. The pupillary light response reflects encoding, but not maintenance, in visual working memory. , 2016, Journal of experimental psychology. Human perception and performance.
[10] Mathôt Sebastiaan,et al. A simple way to reconstruct pupil size during eye blinks , 2013 .
[11] Joachim Gross,et al. Good practice for conducting and reporting MEG research , 2013, NeuroImage.
[12] Barbara Wilhelm,et al. Pupillographic sleepiness testing in hypersomniacs and normals , 1998, Graefe's Archive for Clinical and Experimental Ophthalmology.
[13] Jason S. Tsukahara,et al. The relationship between baseline pupil size and intelligence , 2016, Cognitive Psychology.
[14] Jens-Max Hopf,et al. Pupil size directly modulates the feedforward response in human primary visual cortex independently of attention , 2016, NeuroImage.
[15] Steven J. Luck,et al. On high-pass filter artifacts (they’re real) and baseline correction (it's a good idea) in ERP/ERMF analysis , 2016, Journal of Neuroscience Methods.
[16] Taylor R. Hayes,et al. Mapping and correcting the influence of gaze position on pupil size measurements , 2015, Behavior Research Methods.
[17] Paola Binda,et al. Attention to Bright Surfaces Enhances the Pupillary Light Reflex , 2013, The Journal of Neuroscience.
[18] Jonathan Grainger,et al. The pupillary light response reflects eye-movement preparation. , 2014, Journal of experimental psychology. Human perception and performance.
[19] George H. Denfield,et al. Pupil Fluctuations Track Fast Switching of Cortical States during Quiet Wakefulness , 2014, Neuron.
[20] S. Luck,et al. How inappropriate high-pass filters can produce artifactual effects and incorrect conclusions in ERP studies of language and cognition. , 2015, Psychophysiology.
[21] R. Baayen,et al. Mixed-effects modeling with crossed random effects for subjects and items , 2008 .
[22] Sander Nieuwenhuis,et al. The Pupillary Orienting Response Predicts Adaptive Behavioral Adjustment after Errors , 2016, PloS one.
[23] Glenn R. Gibson,et al. Klebsiella pneumoniae subsp. pneumoniae–bacteriophage combination from the caecal effluent of a healthy woman , 2015, PeerJ.
[24] D. Schroeder,et al. Blink Rate: A Possible Measure of Fatigue , 1994, Human factors.
[25] Mieke Donk,et al. Large pupils predict goal-driven eye movements. , 2015, Journal of experimental psychology. General.
[26] Sebastiaan Mathôt,et al. Attending and inhibiting stimuli that match the contents of visual working memory: Evidence from eye movements and pupillometry , 2016 .
[27] G. Woodman. Use of Event-Related Potentials ( ERPs ) in Studies of Perception and Attention , 2010 .
[28] Jonathan Grainger,et al. The pupillary light response reflects exogenous attention and inhibition of return. , 2014, Journal of vision.
[29] M. Bradley,et al. The pupil as a measure of emotional arousal and autonomic activation. , 2008, Psychophysiology.
[30] S. Klein,et al. Pupil dilation during visual target detection. , 2010, Journal of vision.
[31] Jean Lorenceau,et al. Pupil dynamics during bistable motion perception. , 2009, Journal of vision.
[32] F. Hutzler,et al. Systematic influence of gaze position on pupil size measurement: analysis and correction , 2011, Behavior research methods.
[33] Dan Milea,et al. Test–Retest Repeatability of the Pupil Light Response to Blue and Red Light Stimuli in Normal Human Eyes Using a Novel Pupillometer , 2011, Front. Neur..
[34] A. Zekveld,et al. Pupil Dilation Uncovers Extra Listening Effort in the Presence of a Single-Talker Masker , 2012, Ear and hearing.
[35] E. Castet,et al. Intrasaccadic perception triggers pupillary constriction , 2015, PeerJ.
[36] Sebastiaan Mathôt,et al. New Light on the Mind’s Eye , 2015, Current directions in psychological science.
[37] J. Pokorny,et al. Human and macaque pupil responses driven by melanopsin-containing retinal ganglion cells , 2007, Vision Research.
[38] D Kahneman,et al. Pupil Diameter and Load on Memory , 1966, Science.
[39] Ankit Mathur,et al. Pupil shape as viewed along the horizontal visual field. , 2013, Journal of vision.
[40] Jan Theeuwes,et al. Cognitive and Ocular Factors Jointly Determine Pupil Responses under Equiluminance , 2016, PloS one.
[41] Qing Yang,et al. The Pupil Reflects Motor Preparation for Saccades – Even before the Eye Starts to Move , 2011, Front. Hum. Neurosci..
[42] J. Beatty,et al. The pupillary system. , 2000 .
[43] Eli Peli,et al. Intrasaccadic Perception , 2001, The Journal of Neuroscience.