Visual Apparent Movement Research: Review, 1935–1955, and Bibliography, 1955–1963

Aarons, Louis

doi:10.2466/pms.1964.18.1.239

Cited by 20 publications

(5 citation statements)

References 149 publications

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“…Moreover, it was also pointed out that the time element, in the form of intermittency and repetition, appears to facilitate multisensory integration (Schiller, 1935;Zietz & Werner, 1928). The study of apparent movement has been carried out most thoroughly in the visual modality (Aarons, 1964;Graham, 1965;Kolers, 1972;Neuhaus, 1930;Wertheimer, 1912), but the phenomenon has also been observed in the auditory (Briggs & Perrott, 1972;Burt, 1917) and haptic (Sherrick & Rogers, 1966) modalities as well. Hereupon, the intersensory relation among these apparent movements became a center of attention.…”

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Intersensory influences on the perception of apparent movement

Ohmura¹

1987

Jpn. Psychol. Res

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Previous findings on intermodal apparent movement indicate that intersensory effect in it is asymmetric with respect to acoustic and visual systems. It has also been suggested that the difference between the latencies for the light stimulus and for the sound stimulus may coincide with the point of maximum facilitation in perception. The present study examined whether stimulation of the visual and auditory modalities acted symmetrically or reciprocally in their influence on each other under the different stimulus-onset asynchronies in apparent motion. The results were as follows: (1) Intersensory effect was asymmetric with respect to acoustic and visual systems, that is, only the effect of visual stimulus on auditory apparent movement was found. (2) There were two kinds in this effect: suppression in the shorter range of SOA and facilitation in the longer range. (3) The difference between the latencies for the single stimuli had no influences on likelihood of perceived movement. These findings are discussed along the transsensory view.Key words: intermodal apparent movement, difference between latencies for stimulus, asymmetrical effect, the transsensory view.

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confidence: 99%

Intersensory influences on the perception of apparent movement

Ohmura¹

1987

Jpn. Psychol. Res

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“…The mechanism of directional detection is unknown, although directional specific cells have been found in the pigeon retinae (Maturana and Frenk, 1963) and the optic tectum (Wylie, 1962). While it has been speculated that perception of real movement and apparent movement are derived from the same basic electrophysiological process (Aarons, 1964), thus far the two have been shown to be behaviorally equivalent only in the cat (Smith, 1937). The present study with pigeons was designed to assess stimulus generalization between real and apparent movement on the dimension of direction.…”

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Apparent Movement and Real Movement Detection in the Pigeon: Stimulus Generalization

Rk¹

1971

J Exper Analysis Behavior

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Pigeons were trained to discriminate apparent movement Siegel (1970) suggested that pigeons can also detect lines in apparent movement (AM) over a wide range of directions. The mechanism of directional detection is unknown, although directional specific cells have been found in the pigeon retinae (Maturana and Frenk, 1963) and the optic tectum (Wylie, 1962). While it has been speculated that perception of real movement and apparent movement are derived from the same basic electrophysiological process (Aarons, 1964), thus far the two have been shown to be behaviorally equivalent only in the cat (Smith, 1937). The present study with pigeons was designed to assess stimulus generalization between real and apparent movement on the dimension of direction. Controls for the possibility that "flicker" provided the basis of the apparent movement discrimination (cf. Siegel, 1970) were included. METHOD SubjectsTwelve naive loft-reared homing pigeons were maintained at 70% of their free-feeding weights. Each was randomly assigned to one of three groups. ApparatusAll subjects were magazine trained. Key pecking was then conditioned in an operant discrimination unit equipped with two 2 by 2 in. (5 by 5 cm) Polacoat-projection surface response keys positioned above a central food magazine (Lehigh Valley Electronics, Fogelsville, Pennsylvania, special order). Only the response key to the right of the food magazine was used. A minimum force of 20 g (0.19 N) was required before a microswitch was operated and a response recorded. Scheduling and recording equipment was located in a separate room.For Groups 1 and 3 (AM problem), a 35-mm projector and special double-refracted slides rear-projected vertical lines on the response key. A polarized disc between the projector and the response key rotated at 120 rpm by means of a synchronous motor, and this produced four changes of polarization per second (4 cps) and apparent horizontal movement of the vertical lines at a velocity of 20 cm/sec. To produce "no motion" (NM), the polarized disc was maintained in a stationary position (0 cps). To produce the pulsating (P) effect, a polarized sheet was inserted between the projection lamp and the pattern so that the polarized axis was perpendicular to the slide display.

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“…In 1875 Exner reported that when a spot of light is presented first in one position and, after an appropriate time interval, again in a second position, observers perceive the spot to translate through the shortest path connecting its successive positions (cf Boring 1942). A number of later studies (reviewed by Neff 1936;Aarons 1964;Kolers 1972) have further explored the spatiotemporal conditions for the perception of apparent continuous translation.…”

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confidence: 99%

Velocity Constraints on Apparent Rotational Movement

1982

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Abstract. The visual illusion of apparent rigid rotation was produced by sequential alternation of two views of the same object in different orientations. The minimum stimulus-onset asynchrony required for the appearance of rigid rotation was a linearly increasing function of the angular difference in orientation between the two views. Variation in the size of the object affected the zero-intercept of the function, but the slope was virtually constant. The slope invariance suggests that the appearance of rigid rotation is constrained by an upper bound on the apparent angular velocity of the object as a whole, rather than a bound on the linear velocity of its parts.

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Visual Apparent Movement Research: Review, 1935–1955, and Bibliography, 1955–1963

Cited by 20 publications

References 149 publications

Intersensory influences on the perception of apparent movement

Intersensory influences on the perception of apparent movement

Apparent Movement and Real Movement Detection in the Pigeon: Stimulus Generalization

Velocity Constraints on Apparent Rotational Movement

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