Optic flow generated by rigid surface patches can be decomposed into a small number of elementary motion types. In these experiments, we show that the human visual system can evaluate expansion, one of these motion types, metrically. Moreover, we show that the discrimination of rates of expansion are spatially local. Because the estimation of the focus of expansion is somewhat imprecise, this locality sometimes produces predictable errors in the estimation of rate of expansion. One can make predictions like this with a model adapted from one previously developed for angular-velocity discrimination.Fil: Wurfel, Jeff D.. University of Southern California; Estados UnidosFil: Barraza, Jose Fernando. Consejo Nacional de Investigaciones Científic...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
AbstractRadial optic flow applied to large random dot patterns is known to elicit horizontal vergenc...
When an expansion flow field of moving dots is overlapped by planar motion, observers perceive an il...
AbstractOptic flow generated by rigid surface patches can be decomposed into a small number of eleme...
Optic flow generated by rigid surface patches can be decomposed into four elementary motion types. W...
AbstractCurrent models of motion perception depend on unidirectional motion-sensitive mechanisms tha...
A realistic radial flow field contains a range of local velocities, yet global movement is perceived...
AbstractEgo motion and natural motions in the world generate complex optic flows in the retina. Thes...
An expanding motion stimulus produces two kinds of image changes: a radial displacement (optic flow)...
Small optical flow fields are involved in object and shape recognition. These tasks depend on high r...
Different asymmetries between expansion and contraction (radial motions) have been reported in the l...
Motion in depth results in radial optic-flow patterns. Forward motion results in radially expanding ...
AbstractThe data from two experiments, both using stimuli simulating orthographically rotating surfa...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
AbstractThe focus of expansion (FOE) of a radially expanding optic flow pattern that is overlapped b...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
AbstractRadial optic flow applied to large random dot patterns is known to elicit horizontal vergenc...
When an expansion flow field of moving dots is overlapped by planar motion, observers perceive an il...
AbstractOptic flow generated by rigid surface patches can be decomposed into a small number of eleme...
Optic flow generated by rigid surface patches can be decomposed into four elementary motion types. W...
AbstractCurrent models of motion perception depend on unidirectional motion-sensitive mechanisms tha...
A realistic radial flow field contains a range of local velocities, yet global movement is perceived...
AbstractEgo motion and natural motions in the world generate complex optic flows in the retina. Thes...
An expanding motion stimulus produces two kinds of image changes: a radial displacement (optic flow)...
Small optical flow fields are involved in object and shape recognition. These tasks depend on high r...
Different asymmetries between expansion and contraction (radial motions) have been reported in the l...
Motion in depth results in radial optic-flow patterns. Forward motion results in radially expanding ...
AbstractThe data from two experiments, both using stimuli simulating orthographically rotating surfa...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
AbstractThe focus of expansion (FOE) of a radially expanding optic flow pattern that is overlapped b...
We studied differences in localizing the centres of flow in radially expanding and contracting patte...
AbstractRadial optic flow applied to large random dot patterns is known to elicit horizontal vergenc...
When an expansion flow field of moving dots is overlapped by planar motion, observers perceive an il...