Change detection on a hunch: Pre-attentive vision allows “sensing” of unique feature changes

Ball, Felix; Busch, Niko A.

doi:10.3758/s13414-015-0963-9

Cited by 13 publications

(16 citation statements)

References 54 publications

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“…traffic, when suprathreshold stimuli can be easily missed (as shown by e.g. change blindness experiments 3 – 5 ). To summarize, while physical effectiveness can determine MSF in simple paradigms, internal and physical effectiveness might determine MSF in more complex paradigms.…”

Section: Discussionmentioning

confidence: 99%

Phasic and sustained interactions of multisensory interplay and temporal expectation

Ball

Fuehrmann

Stratil

et al. 2018

Sci Rep

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Every moment organisms are confronted with complex streams of information which they use to generate a reliable mental model of the world. There is converging evidence for several optimization mechanisms instrumental in integrating (or segregating) incoming information; among them are multisensory interplay (MSI) and temporal expectation (TE). Both mechanisms can account for enhanced perceptual sensitivity and are well studied in isolation; how these two mechanisms interact is currently less well-known. Here, we tested in a series of four psychophysical experiments for TE effects in uni- and multisensory contexts with different levels of modality-related and spatial uncertainty. We found that TE enhanced perceptual sensitivity for the multisensory relative to the best unisensory condition (i.e. multisensory facilitation according to the max-criterion). In the latter TE effects even vanished if stimulus-related spatial uncertainty was increased. Accordingly, computational modelling indicated that TE, modality-related and spatial uncertainty predict multisensory facilitation. Finally, the analysis of stimulus history revealed that matching expectation at trial n-1 selectively improves multisensory performance irrespective of stimulus-related uncertainty. Together, our results indicate that benefits of multisensory stimulation are enhanced by TE especially in noisy environments, which allows for more robust information extraction to boost performance on both short and sustained time ranges.

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Section: Discussionmentioning

confidence: 99%

Phasic and sustained interactions of multisensory interplay and temporal expectation

Ball

Fuehrmann

Stratil

et al. 2018

Sci Rep

Self Cite

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“…This supports the hypothesis of Rensink (2004) that seeing and sensing may be facilitated by separate mechanisms. Other studies have also found differences in ERP amplitudes when comparing trials with ‘full’ and ‘partial’ awareness (Fernandez-Duque et al, 2003; Kimura et al, 2008; Busch, 2013; Ball & Busch, 2015), but the definition of sense trials and ‘full’ awareness varies across studies (Mitroff et al, 2002), leading to divergent results.…”

Section: Introductionmentioning

confidence: 99%

“…Several other researchers have explored the possibility of an awareness condition that lies somewhere between the traditional see and blind dichotomy (Fernandez-Duque et al, 2003; Laloyaux et al, 2006; Thornton & Fernandez-Duque, 2001; Galpin et al, 2008; Busch et al, 2009; Ball & Busch, 2015; Kimura et al, 2008; Hollingworth et al, 2001). For example, Fernandez-Duque et al (2003) found that the location of a change could be identified above chance level even when participants did not report to see the change itself (but see Mitroff et al 2002 and Laloyaux et al 2006 for a discussion of these results).…”

Section: Introductionmentioning

confidence: 99%

An EEG study of Detection without Localisation in Change Blindness

Scrivener

Malik

Marsh

et al. 2019

Preprint

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Previous studies of change blindness have suggested a distinction between detection and localisation of changes in a visual scene. Using a simple paradigm with an array of coloured squares, the present study aimed to further investigate differences in event-related potentials (ERPs) between trials in which participants could detect the presence of a colour change but not identify the location of the change (sense trials), versus those where participants could both detect and localise the change (localise trials). Individual differences in performance were controlled for by adjusting the difficulty of the task in real time. Behaviourally, reaction times for sense, blind, and false alarm trials were distinguishable when comparing across levels of participant certainty. In the EEG data, we found no significant differences in the visual awareness negativity ERP, contrary to previous findings. In the N2pc range, both awareness conditions (localise and sense) were significantly different to trials with no change detection (blind trials), suggesting that this ERP is not dependent on explicit awareness. Within the late parietal positivity range, all conditions were significantly different. These results suggest that changes can be 'sensed' without knowledge of the location of the changing object, and that participant certainty scores can provide valuable information about the perception of changes in change blindness.

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“…Given this, the involvement of ensemble representations in the classical colour‐patch change‐detection task would predict that there is a considerable incidence of trials on which participants detect a change but are unable to localize it, whereas – excluding detection responses that simply happen to be correct as a result of random guessing – such trials should not occur when only individual‐item representations are involved. In fact, incidences of change detection or change classification without change localization are commonly observed in the change‐blindness literature (e.g., Agostinelli, Sherman, Fazio, & Hearst, ; Ball & Busch, ; Becker, Pashler, & Anstis, ; Busch, Dürschmid, & Herrmann, ; Hughes, Caplovitz, Loucks, Fendrich, & Hamed, ; Turatto & Bridgeman, ). For example, people can correctly classify whether the average emotion in a set of faces changed towards happier or angrier without being able to select a changed face (Haberman & Whitney, ).…”

Section: Introductionmentioning

confidence: 99%

“…Others refer to this phenomenon as detecting a change in the ‘gist’ of the scene (Haberman & Whitney, ). ‘Sensing’ a change and detecting a change in the ‘gist’ of a scene might just be detection of a change based on ensemble representations (Ball & Busch, ; Haberman & Whitney, ). However, change blindness studies differ in many respects from the typical colour‐change‐detection task: They typically involve a higher incidence of change trials (often up to 100%, as a result of which change‐detection accuracy cannot be measured) and shorter retention intervals (implying the involvement of iconic memory), as well as using more complex stimuli (thus providing more opportunities for using ensemble representations by grouping based on subcategories or other principles).…”

Section: Introductionmentioning

confidence: 99%

Two good reasons to say ‘change!’ – ensemble representations as well as item representations impact standard measures of VWM capacity

Liesefeld

Müller

2018

British J of Psychology

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Visual working memory (VWM) is a central bottleneck in human information processing. Its capacity is most often measured in terms of how many individual-item representations VWM can hold (k). In the standard task employed to estimate k, an array of highly discriminable colour patches is maintained and, after a short retention interval, compared to a test display (change detection). Recent research has shown that with more complex, structured displays, change-detection performance is, in addition to individual-item representations, supported by ensemble representations formed as a result of spatial subgroupings. Here, by asking participants to additionally localize the change, we reveal indication for an influence of ensemble representations even in the very simple, unstructured displays of the colour-patch change-detection task. Critically, pure-item models from which standard formulae of k are derived do not consider ensemble representations and, therefore, potentially overestimate k. To gauge this overestimation, we develop an item-plus-ensemble model of change detection and change localization. Estimates of k from this new model are about 1 item (~30%) lower than the estimates from traditional pure-item models, even if derived from the same data sets.

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Change detection on a hunch: Pre-attentive vision allows “sensing” of unique feature changes

Cited by 13 publications

References 54 publications

Phasic and sustained interactions of multisensory interplay and temporal expectation

Phasic and sustained interactions of multisensory interplay and temporal expectation

An EEG study of Detection without Localisation in Change Blindness

Two good reasons to say ‘change!’ – ensemble representations as well as item representations impact standard measures of VWM capacity

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