Eye-movement parameters and pattern discrimination

Gould, John; Dill, Amanda B.

doi:10.3758/bf03210103

Cited by 91 publications

(26 citation statements)

References 33 publications

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“…2, 3, and 4) confirm the previous fmdings that Ss do fixate for different durations at different locations (Mackworth & Morandi, 1967;Gould & Dill, 1969). They also extend the previous fmdings by indicating that Ss differentially fixate within the silhouettes of the type of figures that have often been used in form-perception studies.…”

Section: Discussionsupporting

confidence: 76%

“…It has been shown that, when confronted with patterns, especially large ones, Ss tend to fixate successively on more than one element, in a systematic fashion related to the individual stimulus and to the elements within it that contain the most information (Mackworth & Morandi, 1967;Gould & Dill, 1969). The studies cited, unlike the one to be described.…”

contrasting

confidence: 39%

“…Gould and Dill (1969) suggest that the duration of fixation is determined by the time it takes to process the encoded information. The time is spent comparing the encoded elements with the standard prototype.…”

Section: Discussionmentioning

confidence: 99%

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Implications of measurement of eye fixations for a psychophysics of form perception

Baker

Loeb

1973

Perception & Psychophysics

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It was suggested that insights into feature analysis of processes involved in form identification might be gained from an analysis of eye movements made by Ss as they identified patterns. Fixations were measured during identifications of histoforms, polygons, and Vargus 10 figures. Eye fixations were measured, and Ss rated sections of the figures in terms of their importance. Eye fixations were measured in terms of number of changes and duration of fixations, The number of changes in fixation were found to reflect only individual differences. Duration of fixation was found to vary significantly with location within figures, with fixations being longest where changes of contour occurred. There was also a tendency to look longer at the top of polygons and Vargus 10 figures and at the center of histoforms. Ratings of importance were highest for sections of figures fixated for longer duration-generally areas in which changes of contour were present.

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Section: Discussionsupporting

confidence: 76%

contrasting

confidence: 39%

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Implications of measurement of eye fixations for a psychophysics of form perception

Baker

Loeb

1973

Perception & Psychophysics

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“…The ability to Ss to extract a limited amount of infonnation from stimuli which are not being fixated (i.e., stimuli which project outside of the foveal area of the retina) has been reported by Sanders (1970), Gould and Dill (1969), and Williams (1967). In the study by Gould and Dill, Ss determined how many of the eight test patterns matched a standard pattern while frequency and duration of eye fixations were recorded.…”

Section: Experiments IIImentioning

confidence: 99%

“…Studies of eye movements made during a task involving visual search and pattern discrimination (Gould & DilL 1969) indicate that stimuli can be discriminated grossly in the periphery of the eye and only require foveal foxation for finer discriminations. A related study by Williams (I967) found that Ss selected objects in the extrafoveal field much better on the basis of color than on the basis of size or shape.…”

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confidence: 99%

Focal and nonfocal processing of color and form

Peeke

Stone

1973

Perception & Psychophysics

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Response latencies to color are usually shorter than those to form. but sometimes this difference is absent or reversed. Three experiments investigated whether these differences result from differential susceptibility of color and form to extrafocal processing. Experiment I showed shorter same-difference latencies to color than to form when two stimuli were presented simultaneously, This difference disappeared or reversed when the two stimuli appeared sequentially, Experiment II. using a multistimulus matching task, found that differences between response latencies to form and color were minimal at the center of the display and increased peripherally, Experiment III showed that eye movements were more frequent in matching forms than colors. Tasks that produced many eye movements had long average latencies, but the relationship between eye movements and latency was not a simple one. There was evidence both for parallel and serial strategies in the use of the eyes to gather information. The results of these experiments are considered in relation to a theory of distributed attention, Much recent research concerned with processing infonnation in colored stimuli and geometric forms suggests that there are differences in the manner in which the human processor copes with these two types of stimuli. The reason for these differences cannot be traced to the specific stimulus sets employed, since a variety of stimul us sizes, shapes, degrees of brightness, and discriminability have been used. The results reported often suggest that the color stimuli are more noticeable or attention-capturing than the form stimuli. For example, Stone (197Ia) has found a much greater effect of irrelevant color on form processing (RTs slowed by 60-120 msec) than of irrelevant form on color processing (RTs slowed by 10-30 msec). indicating that most Ss had difficulty ignoring color when it was irrelevant. Lappin (1967), in a study of stimulus identification with multidimensional displays, suggested that color stimuli might be "psychologically more potent" than form stimuli and might be more readily encoded by the perceptual system.Many studies indicate that response latencies to color stimuli are shorter than latencies to form stimuli, at least when unidimensional stimuli are being considered (Egeth, 1966: Hawkins. 1969: Stone, 1971a. However. Stone and Peeke (1971) found that the relative speed of color and form processing depends on the type of task being used. They presented three task fonnats: (1) matching-to-sample (MTS), where one of four simultaneously presented stimuli is matched to a sample previously presented: (2) oddity (0), where the unique or odd stimulus is selected from four stimuli that are presented simultaneously: and (3) same-different (S-D), where two stimuli are presented sequentially and the decision "same" or "different" is made to the second stimulus. They found that color stimuli produced 71shorter RTs than form stimuli in the MTS and 0 tasks, but on the SoD task the reverse was true. The results of this SoD task ar...

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The role of scanpaths in facial recognition and learning

Rizzo

Hurtig

Damásio

1987

Annals of Neurology

111

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We carried out a comprehensive assessment of eye movements in 2 subjects with impaired facial learning and recognition to determine if the defect might be associated with abnormal scanning of faces. Standard electroculogram showed that fixation, pursuit, saccades, and scanning of salient features of scenes and faces were normal, indicating that the defect was not due to abnormal scanning. However, study of the transitional properties of scanning revealed that the scanpaths of personally meaningful familiar faces, whether or not they were consciously recognized, were less predictable than those of other faces. This result indicates the existence of an internal and relatively specific schema for familiar faces sufficient to alter the "predictable" scanpath used for nonfamiliar faces. This internal schema is accessed even when conscious recognition fails, i.e., when other pertinent memories related to the possessor of the face are not evoked. The meaning of this finding is comparable to that obtained with autonomic studies of covert recognition in prosopagnosia and suggests that properties of scanning can be used as an index of higher neural processing.

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Eye-movement parameters and pattern discrimination

Cited by 91 publications

References 33 publications

Implications of measurement of eye fixations for a psychophysics of form perception

Implications of measurement of eye fixations for a psychophysics of form perception

Focal and nonfocal processing of color and form

The role of scanpaths in facial recognition and learning

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