Visual texture segregation based on orientation and hue

Callaghan, Tara C.; Lasaga, Maria I.; Garner, W. R.

doi:10.3758/bf03207581

Cited by 51 publications

(58 citation statements)

References 12 publications

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“…The primary aim of the present experiments was to provide further support for the proposal that within-region similarity is an important factor in texture segregation (Beck, 1982;Callaghan et al, 1986;Enos, 1986;Olson & Attneave, 1970). The procedure established by the author was employed in the present experiments with stimuli that varied on the dimensions of hue and geometric form.…”

Section: Purpose Of the Present Experimentsmentioning

confidence: 97%

“…On the basis of the Gestalt notion of similarity grouping, it has been proposed that the process of texture segregation will be enhanced not only by high dissimilarity of elements between regions, but also by high similarity of elements within regions (Beck, 1982;Callaghan et al, 1986;Eons, 1986;Olson & Attneave, 1970). Although much research has been devoted to the study of between-region differences, at least two lines of evidence support the importance of withinregion differences.…”

Section: Within-region Similarity and Between-region Differencesmentioning

confidence: 99%

“…Studies of texture segregation have focused on the determination of the basic properties of the stimulus that mediate segregation (i.e., visual primitives), as well as on the illumination of the nature of the segregative process itself. From the former studies, and from studies using a visual-search pop-out paradigm, we have learned that texture segregation and popout are easily produced by the properties of line orientation (Beck, 1966(Beck, , 1967(Beck, , 1972Callaghan et al, 1986;Olson & Attneave, 1970;Treisman & Gormican, 1988), hue Treisman, 1982;Treisman & Gelade, 1980;Treisman & Gormican, 1988), brightness Treisman & Gormican, 1988), or form (Treisman, 1982;Treisman & Gelade, 1980;Treisman & Gormican, 1988). There is indication that the presence versus absence of line terminators (Julesz, 1975(Julesz, , 1981Treisman & Souther, 1985), line length (Beck, 1974;Treisman & Gormican, 1988), and curvature (Treisman & Gormican, 1988), as well as the property of closure (Treisman & Paterson, 1984) also promote strong segregation.…”

Section: Visual Primitives In Texture Segregationmentioning

confidence: 99%

“…It is clear that the main objectives of the revised feature-integration theory are to establish the primitive features of visual perception (see next section for details), to describe how these features are initially coded by the visual system (independent feature maps linked to a master location map), and to determine how the initial independent registration of features is related to the conscious experience of object perception (narrowing of the focus of attention to a discrete spatial Copyright 1989 Psychonomic Society, Inc. location). With the elimination of the dichotomy view of attention, many of the previously discrepant findings from texture-segregation research (e.g., Beck, 1982;Callaghan, Lasaga, & Garner, 1986) may now fit nicely in the revised feature-integration view of perception.…”

mentioning

confidence: 95%

“…In one line of investigation Callaghan et al, 1986), it has been shown that if the similarity of elements within a region is reduced by randomly varying the level of an irrelevant dimension across all elements in the array, then performance is poor relative to a control array having identical elements within a region. In a second line of research, Eons (1986) has reported that ease of segregation is determined by the context in which a target region is embedded.…”

Section: Within-region Similarity and Between-region Differencesmentioning

confidence: 99%

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Interference and dominance in texture segregation: Hue, geometric form, and line orientation

Callaghan

1989

Perception & Psychophysics

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Five experiments were designed to test whether (1) lowering the similarity of elements within a region of texture (low-similarity arrays) would interfere with texture segregation, and (2) there would be dominance of one type of property difference over another in determining an observer's choice of boundary in two-boundary (ambiguous) displays. In Experiments 1 and 2, the interference question was assessed using stimuli formed from the dimensions hue and geometric form (circle/square or straight/curved novel shapes), The results indicated that when boundary judgments were based on form differences, segregation was significantly impaired by hue variation. However, hue segregations were not affected by form variation. In Experiments 3-5, the dominance question was examined using stimuli formed from hue and geometric form, as well as those formed from hue and line orientation (horizontal/vertical'[ Analyses revealed that there was no dominance of one type of property difference over another. Rather, observers' performance was completely predicted by the relative discriminabilities of the two boundaries. These findings support Beck's (1982) model of textural segmentation and call into question traditional notions of the preattentive stage of perceptual processing.The perception of separate regions of texture in the visual field is a process that proceeds automatically, with little or no apparent effort. In the phenomenological experience of casually scanning the real visual world, an observer is aware of vague regions of difference and hazy boundaries between indistinct forms. The precise properties of these forms-their hue, shape, orientation, spatial location, or pattern of movement-are not directly accessible to the observer in this casual state. However, given the requisite motivation (e.g., "Find your red-headed son in that mass of children"), the observer is quickly shifted into a directed state of perception, now able to "zoom in" on a specific property, or combination of properties, to the exclusion of others.This description of the phenomenon of perception fits nicely with the early feature-integration theory of object perception proposed by Treisman (Treisman & Gelade, 1980;Treisman & Paterson, 1984;Treisman & Souther, 1985). In that view, the automatic grouping together of Experiments I and 3 were conducted at Yale University, where the author was supported by a Natural Sciences and Engineering Research Council of Canada postdoctoral fellowship, and additional support from National Institute of Mental Health Grant MH 14229 to W. R. Gamer. The remaining experiments were conducted at St. Francis Xavier University and were supported by a Natural Sciences and Engineering Research Council of Canada operating grant to the author. The author thanks W. R. Gamer, Richard Ivry, and two anonymous reviewers for their helpful comments on an earlier draft of this paper. Thanks also to Annette MacArthur for help in running some of these experiments. Requests for reprints should be sent to Tara C. Callaghan, Department o...

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Section: Purpose Of the Present Experimentsmentioning

confidence: 97%

Section: Within-region Similarity and Between-region Differencesmentioning

confidence: 99%