Non-contact Eye-tracking on Cats
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The objective of visual systems neuroscience has shifted over the past few years from determining the receptive fields of cells towards the understanding of higher level cognition in awake animals viewing natural stimuli. In experiments with awake animals it is important to control the relevant aspects of behavior. Most important for vision science is the control of the direction of gaze. Here we present Dual Purkinje eye-tracking on cats, which--as a non-contact method--brings a number of advantages. Along with the presented methods for calibration and for synchronization to off-the-shelf video presentation hardware, this method allows high precision experiments to be performed on cats freely viewing videos of natural scenes.
Mammals Achieve Common Neural Coverage of Visual Scenes Using Distinct Sampling Behaviors.
Samonds J, Szinte M, Barr C, Montagnini A, Masson G, Priebe N eNeuro. 2024; 11(2).
PMID: 38164577 PMC: 10860624. DOI: 10.1523/ENEURO.0287-23.2023.
Ehinger B, Gross K, Ibs I, Konig P PeerJ. 2019; 7:e7086.
PMID: 31328028 PMC: 6625505. DOI: 10.7717/peerj.7086.
Natural image and receptive field statistics predict saccade sizes.
Samonds J, Geisler W, Priebe N Nat Neurosci. 2018; 21(11):1591-1599.
PMID: 30349110 PMC: 6824909. DOI: 10.1038/s41593-018-0255-5.
Baudot P, Levy M, Marre O, Monier C, Pananceau M, Fregnac Y Front Neural Circuits. 2014; 7:206.
PMID: 24409121 PMC: 3873532. DOI: 10.3389/fncir.2013.00206.
The effect of human in vivo accommodation on crystalline lens stability.
Schachar R, Davila C, Pierscionek B, Chen W, Ward W Br J Ophthalmol. 2007; 91(6):790-3.
PMID: 17215266 PMC: 1955590. DOI: 10.1136/bjo.2006.110791.