scholarly journals Estimating depth and distance in reach space: the role of head motion parallax

2010 ◽  
Vol 2 (7) ◽  
pp. 700-700
Author(s):  
A. M. Plooy ◽  
J. P. Wann
Keyword(s):  
Motion Parallax ◽  
Head Motion ◽  
Reach Space

The Familiar-Size Cue to Depth under Reduced-Cue Viewing Conditions

Perception ◽  
1994 ◽  
Vol 23 (11) ◽  
pp. 1301-1312 ◽  
Author(s):  
John Predebon ◽  
Jacob Steven Woolley
Keyword(s):  
Motion Parallax ◽  
Verbal Report ◽  
Major Determinant ◽  
Relative Distance ◽  
Head Motion ◽  
Familiar Size ◽  
Verbal Reports ◽  
Direct Reports ◽  
Visual Conditions

The familiar-size cue to perceived depth was investigated in five experiments. The stimuli were stationary familiar objects viewed monocularly under otherwise completely darkened visual conditions. Perceived depth was measured directly with the method of verbal report and indirectly with the head-motion procedure. Although the familiar-size cue influenced verbal reports of the distances of the objects, it did not determine perceived depth as assessed with the head-motion procedure. These findings support the claim that familiar size is not a major determinant of perceived depth, and that cognitive or nonperceptual factors mediate the effects of familiar size on direct reports of depth and distance. Possible reasons for the failure of familiar size to influence the head-motion-derived measures of perceived depth are discussed with particular emphasis on the role of motion parallax in determining perceptions of depth and relative distance.

A Distinctive Characteristic of Pictorial Perception: The Zoom Effect

Perception ◽  
1978 ◽  
Vol 7 (6) ◽  
pp. 625-633 ◽  
Author(s):  
Margaret A Hagen ◽  
Harry B Elliott ◽  
Rebecca K Jones
Keyword(s):  
Surface Texture ◽  
Flat Surface ◽  
Motion Parallax ◽  
Linear Perspective ◽  
Head Motion ◽  
Surface Information ◽  
Pictorial Perception

To investigate the role of flat surface information for the plane of projection in pictorial perception, three studies were designed in which varying amounts of such information were made available to adult subjects. The first study tested preferences for true or modified linear perspective under conditions of presence or absence of surface texture cues for the plane of projection. In the second and third studies, the absence of texture cues for the plane was coupled with the addition of motion parallax and binocular information respectively. It was found that adults showed a consistent preference for parallel perspective in pictures when the flat-surface information was provided either by visible texture or by motion parallax; but no consistent preference for either true or modified perspective in the absence of all three sources of flatness information or when the flat surface information was given only by binocular cues in the absence of visible surface texture or head motion.

scholarly journals The role of motion parallax in the perception of egocentric direction

2017 ◽  
Vol 17 (10) ◽  
pp. 985
Author(s):  
Kait Clark ◽  
Simon Rushton
Keyword(s):  
Motion Parallax ◽  
Egocentric Direction

Apparent Depth with Retinal Image Motion of Expansion and Contraction Yoked to Head Movement

Perception ◽  
1998 ◽  
Vol 27 (8) ◽  
pp. 937-949 ◽  
Author(s):  
Takanao Yajima ◽  
Hiroyasu Ujike ◽  
Keiji Uchikawa
Keyword(s):  
Motion Parallax ◽  
Ccd Camera ◽  
Head Movements ◽  
Image Motion ◽  
Apparent Depth ◽  
Motion Cues ◽  
Relative Expansion ◽  
Retinal Image Motion ◽  
Self Motion

The two main questions addressed in this study were (a) what effect does yoking the relative expansion and contraction (EC) of retinal images to forward and backward head movements have on the resultant magnitude and stability of perceived depth, and (b) how does this relative EC image motion interact with the depth cues of motion parallax? Relative EC image motion was produced by moving a small CCD camera toward and away from the stimulus, two random-dot surfaces separated in depth, in synchrony with the observers' forward and backward head movements. Observers viewed the stimuli monocularly, on a helmet-mounted display, while moving their heads at various velocities, including zero velocity. The results showed that (a) the magnitude of perceived depth was smaller with smaller head velocities (<10 cm s−1), including the zero-head-velocity condition, than with a larger velocity (10 cm s−1), and (b) perceived depth, when motion parallax and the EC image motion cues were simultaneously presented, is equal to the greater of the two possible perceived depths produced from either of these two cues alone. The results suggested the role of nonvisual information of self-motion on perceiving depth.

The effect of overall stimulus velocity on motion parallax

2008 ◽  
Vol 25 (1) ◽  
pp. 3-15 ◽  
Author(s):  
YING ZHANG ◽  
PETER H. SCHILLER
Keyword(s):  
Motion Parallax ◽  
Three Dimensional ◽  
Reaction Times ◽  
Visual Display ◽  
Stimulus Movement ◽  
Stimulus Velocity ◽  
Target Region ◽  
Performance Accuracy ◽  
Dimensional Object

This study examined the effectiveness with which motion parallax information can be utilized by rhesus monkeys for depth perception. A visual display comprised of random-dots that mimicked a rigid, three-dimensional object rocking back and forth was used. Differential depth was produced by presenting sub-regions of the dots moving at different velocities from the rest of dots in the display. The tasks for the monkeys were to detect or discriminate a target region that was protruding the furthest from the background plane. To understand the role of stimulus movement, we examined the accuracy and the rapidity of the saccadic responses as a function of rocking velocity of the entire three-dimensional object. The results showed that performance accuracy improved and reaction times decreased with increasing rocking velocities. The monkeys can process the motion parallax information with remarkable rapidity such that the average reaction time ranged between 212 and 246 milliseconds. The data collected suggest that the successive activation of just two sets of cones is sufficient to perform the task.

The Effect of Observer Perspective on the Perceived Velocity of Human Walkers

2004 ◽  
Vol 63 (3) ◽  
pp. 191-199 ◽  
Author(s):  
Esther Schollerer ◽  
Rudolf Groner
Keyword(s):  
Motion Parallax ◽  
Apparent Velocity ◽  
Motion Cues ◽  
Factorial Anova ◽  
Observer Perspective ◽  
Main Effect ◽  
Perceived Velocity

The apparent velocity of a filmed person, walking in front of static or moving backgrounds, was estimated in 2 experiments by 18 observers. The camera either followed the walker or remained at the same position (= stabilized vs. mobile observer perspective). A factorial ANOVA was used with the estimate of the walker’s velocity (in km/h) as dependent variable. Based on the number of applicable motion cues and on the role of motion parallax, it was predicted that the mobile observer perspective should lead to a higher estimate of the walker’s velocity. In both experiments, the opposite of this prediction was observed: Stabilized observer perspective produced consistently higher velocity estimates as a main effect and in interaction with the background variables. No velocity increasing effect of motion parallax was found in stabilized observer perspective, presumably because of the ambiguity of motion cues with respect to background distance.

Proprioceptive contribution to distance estimation by motion parallax in a praying mantid

1998 ◽  
Vol 201 (9) ◽  
pp. 1483-1491 ◽  
Author(s):  
M Pabst ◽  
K Kral
Keyword(s):  
Motion Parallax ◽  
Distance Estimation ◽  
Image Motion ◽  
Head Motion ◽  
Jump Frequency ◽  
Praying Mantis ◽  
Retinal Image Motion ◽  
Praying Mantid ◽  
Behavioural Experiments ◽  
Measurement Mechanism

The behavioural experiments described here examined, in the praying mantis Tenodera sinensis, the manner in which the proprioceptive cervical hair plate sensilla are involved in the measurement of the distance to a jump target with the aid of motion parallax actively produced by translatory head motion. Various combinations of surgical deafferentation of the cervical hair plate sensilla had no influence on the linearisation of head motion. However, the measurement of relative and absolute distance and the jump frequency were impaired by these interventions. From the results, it is concluded that the cervical hair plate sensilla are involved in the distance measurement mechanism, probably by allowing the nervous system to compare retinal image motion with head motion. &lt;P&gt;

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