Add to ORKGVision is used by walking animals to ensure stable foot placements and to avoid obstacles in their path. Visual input is not used directly when walking over normal terrain, however. Instead, walking animals look three or four steps ahead of their current position and use short-term memory to remember pertinent objects for use at the appropriate time. In cluttered terrain, humans may rely on increased visual input, guiding foot movement directly when needed. In quadrupeds, the hindlegs can never beguided by visual input directly, suggesting a specialized memory system mightbe used during walking in cluttered terrain. We have previously reported evidence in support of this hypothesis, showing that cats that have stepped over an object with th...
Abstract In cats, the postero-medial part of lateral su-prasylvian cortex (PMLS) is generally consid...
The motor cortex plays a critical role in accurate visually guided movements such as reaching and ta...
The production of visually guided reaching movements relies on a large neural network. Based on indi...
SummaryAlthough visual input is used heavily during locomotion [1], intermittent visual input is suf...
A working memory of obstacles is essential for navigating complex, cluttered terrain. In quadrupeds,...
While walking in complex environments, the ability to acquire information about objects in our surro...
In complex environments, tripping over an unexpected obstacle evokes the stumbling corrective reacti...
In complex environments, information about surrounding obstacles is stored in working memory (WM) an...
AbstractVision is important for locomotion in complex environments. How it is used to guide stepping...
On complex, naturalistic terrain, sensory information about an environmental obstacle can be used to...
Avoiding obstacles is essential when we move about the world, yet little is known about how we do th...
This is a pre-copyedited, author-produced version of an article accepted for publication in [Cerebra...
Responses of neurons in the primary somatosensory cortex during movements are poorly understood, eve...
abstract: Navigation through natural environments requires continuous sensory guidance. In addition ...
This is the peer reviewed version of the following article: Zubair, H. N., Chu, K., Johnson, J. L., ...
Abstract In cats, the postero-medial part of lateral su-prasylvian cortex (PMLS) is generally consid...
The motor cortex plays a critical role in accurate visually guided movements such as reaching and ta...
The production of visually guided reaching movements relies on a large neural network. Based on indi...
SummaryAlthough visual input is used heavily during locomotion [1], intermittent visual input is suf...
A working memory of obstacles is essential for navigating complex, cluttered terrain. In quadrupeds,...
While walking in complex environments, the ability to acquire information about objects in our surro...
In complex environments, tripping over an unexpected obstacle evokes the stumbling corrective reacti...
In complex environments, information about surrounding obstacles is stored in working memory (WM) an...
AbstractVision is important for locomotion in complex environments. How it is used to guide stepping...
On complex, naturalistic terrain, sensory information about an environmental obstacle can be used to...
Avoiding obstacles is essential when we move about the world, yet little is known about how we do th...
This is a pre-copyedited, author-produced version of an article accepted for publication in [Cerebra...
Responses of neurons in the primary somatosensory cortex during movements are poorly understood, eve...
abstract: Navigation through natural environments requires continuous sensory guidance. In addition ...
This is the peer reviewed version of the following article: Zubair, H. N., Chu, K., Johnson, J. L., ...
Abstract In cats, the postero-medial part of lateral su-prasylvian cortex (PMLS) is generally consid...
The motor cortex plays a critical role in accurate visually guided movements such as reaching and ta...
The production of visually guided reaching movements relies on a large neural network. Based on indi...