Whiskered mammals such as rats are experts in tactile perception. By actively palpating surfaces with their whiskers, rats and mice are capable of acute texture discrimination and shape perception. We present a novel system for investigating whisker-object contacts repeatably and reliably. Using an XY positioning robot and a biomimetic artificial whisker we can generate signals for different whisker-object contacts under a wide range of conditions. Our system is also capable of dynamically altering the velocity and direction of the contact based on sensory signals. This provides a means for investigating sensory motor interaction in the tactile domain. Here we implement active contact control, and investigate the effect that speed has on ra...
Active vibrissal touch can be used to replace or to supplement sensory systems such as computer visi...
We introduce a new multi-element sensory array built from tactile whiskers and modelled on the mamma...
Mammals like rats, who live in dark burrows, heavily depend on tactile perception obtained through t...
Whiskered mammals such as rats are experts in tactile perception. By actively palpating surfaces wit...
Whisker movement has been shown to be under active control in certain specialist animals such as rat...
Whisker movement has been shown to be under active control in certain specialistanimals such as rats...
Actuated artificial whiskers modeled on rat macrovibrissae can provide effective tactile sensor syst...
Rodents are excellent at tactile discrimination. They use their whiskers to extract tactile infor- m...
Rodents are excellent at tactile discrimination. They use their whiskers to extract tactile infor- m...
The rodent vibrissal (whisker) system is one of the most widely investigated model sensory systems ...
Rats and other whiskered mammals are capable of making sophisticated sensory discriminations using t...
This thesis proposes a parsimonious approach to localization, mapping and object recog- nition for a...
Tactile sensing can be an important source of information for robots, and texture discrimination in ...
Rats use their whiskers as tactile sensors to sense their environment. Active whisking, moving whisk...
Future robots may need to navigate where visual sensors fail. Touch sensors provide an alternative m...
Active vibrissal touch can be used to replace or to supplement sensory systems such as computer visi...
We introduce a new multi-element sensory array built from tactile whiskers and modelled on the mamma...
Mammals like rats, who live in dark burrows, heavily depend on tactile perception obtained through t...
Whiskered mammals such as rats are experts in tactile perception. By actively palpating surfaces wit...
Whisker movement has been shown to be under active control in certain specialist animals such as rat...
Whisker movement has been shown to be under active control in certain specialistanimals such as rats...
Actuated artificial whiskers modeled on rat macrovibrissae can provide effective tactile sensor syst...
Rodents are excellent at tactile discrimination. They use their whiskers to extract tactile infor- m...
Rodents are excellent at tactile discrimination. They use their whiskers to extract tactile infor- m...
The rodent vibrissal (whisker) system is one of the most widely investigated model sensory systems ...
Rats and other whiskered mammals are capable of making sophisticated sensory discriminations using t...
This thesis proposes a parsimonious approach to localization, mapping and object recog- nition for a...
Tactile sensing can be an important source of information for robots, and texture discrimination in ...
Rats use their whiskers as tactile sensors to sense their environment. Active whisking, moving whisk...
Future robots may need to navigate where visual sensors fail. Touch sensors provide an alternative m...
Active vibrissal touch can be used to replace or to supplement sensory systems such as computer visi...
We introduce a new multi-element sensory array built from tactile whiskers and modelled on the mamma...
Mammals like rats, who live in dark burrows, heavily depend on tactile perception obtained through t...