How do we decide whether an object approaching us will hit us? Information in the optic array should provide information sufficient for us to determine the approaching trajectory of a projectile. However, observers reports of angular trajectories near the mid-sagittal plane have suggested that, when using binocular information, observers perceive trajectory angles as larger than they actually are (Harris & Dean, 2003; J. Exp. Psych, in press). We examine the generality of this previous report by examining the perception of trajectory direction; first for computer rendered, stereoscopically presented, rich-cue objects, and then trajectory perception for real objects moving in the world. We find that, even under rich cue conditions and with ...
AbstractA pair of projectiles travelling on parallel trajectories produce differing patterns of reti...
Various equations that describe how observers could recover the trajectory of an approaching object ...
Various equations that describe how observers could recover the trajectory of an approaching object ...
How do we decide whether an object approaching us will hit us? Information in the optic array should...
How do we decide whether an object approaching us will hit us? Information in the optic array should...
AbstractHow do we decide whether an object approaching us will hit us? The optic array provides info...
AbstractHow do we decide whether an object approaching us will hit us? The optic array provides info...
How do we decide whether an object approaching us will hit us? The optic array provides information ...
How do we decide whether an object approaching us will hit us? The optic array provides information ...
How do we decide whether an object approaching us will hit us? The optic array provides information ...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
The eyes receive slightly different views of the world, and the differences between their images (bi...
AbstractA pair of projectiles travelling on parallel trajectories produce differing patterns of reti...
Various equations that describe how observers could recover the trajectory of an approaching object ...
Various equations that describe how observers could recover the trajectory of an approaching object ...
How do we decide whether an object approaching us will hit us? Information in the optic array should...
How do we decide whether an object approaching us will hit us? Information in the optic array should...
AbstractHow do we decide whether an object approaching us will hit us? The optic array provides info...
AbstractHow do we decide whether an object approaching us will hit us? The optic array provides info...
How do we decide whether an object approaching us will hit us? The optic array provides information ...
How do we decide whether an object approaching us will hit us? The optic array provides information ...
How do we decide whether an object approaching us will hit us? The optic array provides information ...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
When an object moves in three dimensions (3-D), a combination of binocular disparity and lateral mot...
The eyes receive slightly different views of the world, and the differences between their images (bi...
AbstractA pair of projectiles travelling on parallel trajectories produce differing patterns of reti...
Various equations that describe how observers could recover the trajectory of an approaching object ...
Various equations that describe how observers could recover the trajectory of an approaching object ...