How do animals follow demarcated paths? Different species are sensitive to optic flow and one control solution is to maintain the balance of flow symmetry across visual fields; however, it is unclear whether animals are sensitive to changes in asymmetries when steering along curved paths. Flow asymmetries can alter the global properties of flow (i.e. flow speed) which may also influence steering control. We tested humans steering curved paths in a virtual environment. The scene was manipulated so that the ground plane to either side of the demarcated path produced larger or smaller asymmetries in optic flow. Independent of asymmetries and the locomotor speed, the scene properties were altered to produce either faster or slower globally aver...
When steering a trajectory, we direct our gaze to locations (1–3 s ahead) that we want to steer thro...
To steer a course through the world, people are almost entirely dependent on visual information, of ...
We investigated the role of global optic flow for visual-motor adaptation of walking direction. In a...
How do animals follow demarcated paths? Different species are sensitive to optic flow and one contro...
How do animals follow demarcated paths? Different species are sensitive to optic flow and one contro...
© 2016 American Psychological Association. Responding to changes in the road ahead is essential for ...
The Two-level model is a popular account of how humans use visual information to successfully contro...
There has long been a debate on which of the following two strategies we adopt while we are steering...
This journal suppl. entitled: ECVP Abstract 2013Posters: Biological Motion, Perception and ActionWe ...
<div><p>Many experimental approaches to the control of steering rely on the tangent point (TP) as ma...
Movement through an environment produces an optical spatiotemporal pattern, known as a flow field. W...
Instantaneous direction of self-translation (heading) and trajectory (path) are two central features...
It has previously been reported that humans can determine their direction of 3D translation (heading...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
When steering a trajectory, we direct our gaze to locations (1–3 s ahead) that we want to steer thro...
To steer a course through the world, people are almost entirely dependent on visual information, of ...
We investigated the role of global optic flow for visual-motor adaptation of walking direction. In a...
How do animals follow demarcated paths? Different species are sensitive to optic flow and one contro...
How do animals follow demarcated paths? Different species are sensitive to optic flow and one contro...
© 2016 American Psychological Association. Responding to changes in the road ahead is essential for ...
The Two-level model is a popular account of how humans use visual information to successfully contro...
There has long been a debate on which of the following two strategies we adopt while we are steering...
This journal suppl. entitled: ECVP Abstract 2013Posters: Biological Motion, Perception and ActionWe ...
<div><p>Many experimental approaches to the control of steering rely on the tangent point (TP) as ma...
Movement through an environment produces an optical spatiotemporal pattern, known as a flow field. W...
Instantaneous direction of self-translation (heading) and trajectory (path) are two central features...
It has previously been reported that humans can determine their direction of 3D translation (heading...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
We hypothesized that neuronal responses to virtual self-movement would be enhanced during steering t...
When steering a trajectory, we direct our gaze to locations (1–3 s ahead) that we want to steer thro...
To steer a course through the world, people are almost entirely dependent on visual information, of ...
We investigated the role of global optic flow for visual-motor adaptation of walking direction. In a...