The psychometric function: II. Bootstrap-based confidence intervals and sampling

Wichmann, Felix A.; Hill, N. Jeremy

doi:10.3758/bf03194545

Cited by 744 publications

(542 citation statements)

References 21 publications

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“…Threshold and slope differences that exceed 95% of the simulated differences are considered significantly different on a 5% alpha level. Details and validity tests of the method are given by Wichmann and Hill (2001b). The results from these tests will be denoted Monte Carlo test (MCT).…”

Section: Methodsmentioning

confidence: 99%

Speed limits: Orientation and semantic context interactions constrain natural scene discrimination dynamics.

Rieger

Köchy

Schalk

et al. 2008

Journal of Experimental Psychology: Human Perception and Perfor

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The visual system rapidly extracts information about objects from the cluttered natural environment. In 5 experiments, the authors quantified the influence of orientation and semantics on the classification speed of objects in natural scenes, particularly with regard to object-context interactions. Natural scene photographs were presented in an object-discrimination task and pattern masked with various scene-tomask stimulus-onset asynchronies (SOAs). Full psychometric functions and reaction times (RTs) were measured. The authors found that (a) rotating the full scenes increased threshold SOA at intermediate rotation angles but not for inversion; (b) rotating object or context degraded classification performance in a similar manner; (c) semantically congruent contexts had negligible facilitatory effects on object classification compared with meaningless baseline contexts with a matching contrast structure, but incongruent contexts severely degraded performance; (d) any object-context incongruence (orientation or semantic) increased RTs at longer SOAs, indicating dependent processing of object and context; and (e) facilitatory effects of context emerged only when the context shortly preceded the object. The authors conclude that the effects of natural scene context on object classification are primarily inhibitory and discuss possible reasons.

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Section: Methodsmentioning

confidence: 99%

Speed limits: Orientation and semantic context interactions constrain natural scene discrimination dynamics.

Rieger

Köchy

Schalk

et al. 2008

Journal of Experimental Psychology: Human Perception and Perfor

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show abstract

“…PSS and JND were the only free parameters. This was done using the Matlab toolbox psignifit (Wichmann & Hill, 2001a, 2001b. Another psychometric function (two-criterion model; cf.…”

Section: Discussionmentioning

confidence: 99%

Asymmetries in visuomotor recalibration of time perception: Does causal binding distort the window of integration?

2014

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The recalibration of perceived visuomotor simultaneity to vision-lead and movement-lead temporal discrepancies is marked by an underlying causal asymmetry; a lagging visual stimulus may be interpreted as causally linked sensory feedback (intentional or causal binding), a leading visual stimulus not. Here, we test whether this underlying causal asymmetry leads to directional asymmetries in the temporal recalibration of visuomotor time perception using an interval estimation (IE) paradigm. Participants were trained to the presence of one of three temporal discrepancies between a motor action (button press) and a visual stimulus (flashed disk): 100 ms vision-lead, simultaneity, and 100 ms movement-lead. By adjusting a point on a visual scale, participants then estimated the interval between the visual stimulus and the button press over a range of discrepancies. Comparing the results across conditions, we found that temporal recalibration appears to be implemented nearly exclusively on the movement-lead side of the range of discrepancies by a uni-lateral lengthening or shortening of the window of temporal integration. Interestingly, this marked asymmetry does not lead to significantly asymmetrical recalibration of the point of subjective simultaneity (PSS) or to significant differences in discriminability. This confirms an earlier study, where we found no significant evidence for directional asymmetries in recalibration of PSS using a temporal order judgment paradigm (Rohde & Ernst, 2013). This seeming contradiction in the results (symmetrical recalibration of PSS and asymmetrical recalibration of interval estimation) casts a new light on common models of temporal order perception. Using a two-criterion model of temporal integration, we illustrate that a compressive bias around perceived simultaneity (temporal integration) prior to perceptual decisions would be very hard to detect in the probability distribution of responses. This in turn means that integration may happen even before perceptual judgments about order, simultaneity and durations are made. (Graphical abstract)Highlights:-Humans recalibrate visuomotor interval perception to the presence of temporal discrepancies. -Recalibration is asymmetrical and occurs mostly for movement-lead stimuli. -This is realized as one-sided compression or extension of the window of temporal integration. -Changes in the point of subjectivity are, by contrast, symmetrical. -A two-criterion model of temporal integration can resolve this seeming contradiction.

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“…Psychometric functions were fitted to the results using the psignifit toolbox version 2.5.6 for MATLAB 1 which implements the maximum-likelihood method described by Wichmann and Hill (2001). The 68 % confidence intervals around the fitted values were obtained by the BCA bootstrap method implemented by psignifit, based on 1999 simulations.…”

Section: Jnd In Itdmentioning

confidence: 99%

Modulation Enhancement in the Electrical Signal Improves Perception of Interaural Time Differences with Bimodal Stimulation

Francart

Lenssen

Wouters

2014

JARO

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Interaural timing cues are important for sound source localization and for binaural unmasking of speech that is spatially separated from interfering sounds. Users of a cochlear implant (CI) with residual hearing in the non-implanted ear (bimodal listeners) can only make very limited use of interaural timing cues with their clinical devices. Previous studies showed that bimodal listeners can be sensitive to interaural time differences (ITDs) for simple single-and three-channel stimuli. The modulation enhancement strategy (MEnS) was developed to improve the ITD perception of bimodal listeners. It enhances temporal modulations on all stimulated electrodes, synchronously with modulations in the acoustic signal presented to the non-implanted ear, based on measurement of the amplitude peaks occurring at the rate of the fundamental frequency in voiced phonemes. In the first experiment, ITD detection thresholds were measured using the method of constant stimuli for five bimodal listeners for an artificial vowel, processed with either the advanced combination encoder (ACE) strategy or with MEnS. With MEnS, detection thresholds were significantly lower, and for four subjects well within the physically relevant range. In the second experiment, the extent of lateralization was measured in three subjects with both strategies, and ITD sensitivity was determined using an adaptive procedure. All subjects could lateralize sounds based on ITD and sensitivity was significantly better with MEnS than with ACE. The current results indicate that ITD cues can be provided to bimodal listeners with modified sound processing.

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The psychometric function: II. Bootstrap-based confidence intervals and sampling

Cited by 744 publications

References 21 publications

Speed limits: Orientation and semantic context interactions constrain natural scene discrimination dynamics.

Speed limits: Orientation and semantic context interactions constrain natural scene discrimination dynamics.

Asymmetries in visuomotor recalibration of time perception: Does causal binding distort the window of integration?

Modulation Enhancement in the Electrical Signal Improves Perception of Interaural Time Differences with Bimodal Stimulation

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