Direction discrimination performance measured using a Fourier domain signal-to-noise paradigm

Mather, G. W. and Daniell, A. K. (2003) Direction discrimination performance measured using a Fourier domain signal-to-noise paradigm. Journal of Vision, 3 (9). 283a. ISSN 1534-7362

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Abstract

Local motion sensors are selectively sensitive to the spatiotemporal Fourier energy generated by retinal image movement. We have developed a Fourier-domain signal-to-noise paradigm to investigate how the outputs of motion sensors are combined during integration. In the space domain, stimuli were two-frame 1-D random-line kinematograms. In the Fourier domain, frequency components were divided into noise components and signal components. Noise components shifted in phase by a random amount in either direction. Signal components either (i) shifted in phase in the same direction by a constant phase angle; or (ii) shifted in phase in the same direction by a constant velocity. Signal direction varied randomly from trial to trial, and the observer was required to report the direction of motion seen in each trial. We measured the minimum ratio between signal and noise components required for reliable direction discrimination. Data showed a performance advantage for the constant-phase stimulus over the constant-velocity stimulus. This result, and data from subsequent experiments, is discussed in the context of current motion integration models.

Item Type:Article
Keywords:article, controlled study, directional vision, energy yield, Fourier analysis, human, human experiment, measurement, movement perception, observer variation, randomization, reliability, retina image, sensor, signal noise ratio, space, spatial frequency discrimination, task performance, time perception, velocity, visual discrimination, visual stimulation
Subjects:B Subjects allied to Medicine > B140 Neuroscience
C Biological Sciences > C830 Experimental Psychology
Divisions:College of Social Science > School of Psychology
ID Code:16111
Deposited By: George Mather
Deposited On:03 Dec 2014 20:52
Last Modified:03 Dec 2014 20:52

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