Background: In visual psychophysics, precise display timing, particularly for brief stimulus presentations, is often required. The aim of this study was to systematically review the commonly applied methods for the computation of stimulus durations in psychophysical experiments and to contrast them with the true luminance signals of stimuli on computer displays. Methodology/Principal Findings: In a first step, we systematically scanned the citation index Web of Science for studies with experiments with stimulus presentations for brief durations. Articles which appeared between 2003 and 2009 in three different journals were taken into account if they contained experiments with stimuli presented for less than 50 milliseconds. The 79 articles ...
Previous studies that examined human judgments of frequency and duration found an asymmetrical relat...
Previous research has demonstrated that a stimulus with larger size, digit number or luminance was j...
Poth CH, Foerster RM, Behler C, Schwanecke U, Schneider WX, Botsch M. Ultrahigh temporal resolution ...
BACKGROUND: In visual psychophysics, precise display timing, particularly for brief stimulus present...
In visual psychophysics, precise display timing, particularly for brief stimulus presentations, is o...
The use of cathode-ray-tube monitors is widespread in the vision science community. The temporal res...
Nowadays psychology researchers have a wide range of experimental software alternatives to present d...
Liquid crystal display (LCD) monitors are nowadays standard in computerized visual presentation. How...
Previous studies that examined human judgments of frequency and duration found an asymmetrical relat...
The study of higher cognitive processes often relies on the manipulation of bottom-up stimulus chara...
These experiments tested whether human duration judgments can be influenced even when the subjective...
<div><p>Liquid crystal displays (LCD) are currently replacing the previously dominant cathode ray tu...
While objective time marches, subjective time cadenzas. Objectively, one second lasts one second, ho...
Previous studies that examined human judgments of frequency and duration found an asymmetrical relat...
This article explores the widely reported finding that the subjective duration of a stimulus is posi...
Previous studies that examined human judgments of frequency and duration found an asymmetrical relat...
Previous research has demonstrated that a stimulus with larger size, digit number or luminance was j...
Poth CH, Foerster RM, Behler C, Schwanecke U, Schneider WX, Botsch M. Ultrahigh temporal resolution ...
BACKGROUND: In visual psychophysics, precise display timing, particularly for brief stimulus present...
In visual psychophysics, precise display timing, particularly for brief stimulus presentations, is o...
The use of cathode-ray-tube monitors is widespread in the vision science community. The temporal res...
Nowadays psychology researchers have a wide range of experimental software alternatives to present d...
Liquid crystal display (LCD) monitors are nowadays standard in computerized visual presentation. How...
Previous studies that examined human judgments of frequency and duration found an asymmetrical relat...
The study of higher cognitive processes often relies on the manipulation of bottom-up stimulus chara...
These experiments tested whether human duration judgments can be influenced even when the subjective...
<div><p>Liquid crystal displays (LCD) are currently replacing the previously dominant cathode ray tu...
While objective time marches, subjective time cadenzas. Objectively, one second lasts one second, ho...
Previous studies that examined human judgments of frequency and duration found an asymmetrical relat...
This article explores the widely reported finding that the subjective duration of a stimulus is posi...
Previous studies that examined human judgments of frequency and duration found an asymmetrical relat...
Previous research has demonstrated that a stimulus with larger size, digit number or luminance was j...
Poth CH, Foerster RM, Behler C, Schwanecke U, Schneider WX, Botsch M. Ultrahigh temporal resolution ...