We have performed a psychophysical experiment to investigate differences in perceived object size when exploring the inside or outside of objects. The experiment consisted of five conditions, in which ten blindfolded subjects compared the size of circular disks and holes using either the index finger, two different probes, the finger-span method, or an infinitesimal virtual probe. The result showed significant negative biases for the conditions with the large probe and the finger-span method, meaning that an object felt on the inside should be larger than an object felt on the outside in order to be perceived as the same size. This indicates that subjects are unable to sufficiently correct for the diameter of the probe when exploring object...
Determining distances to objects is one of the most ubiquitous perceptual tasks in everyday life. Ne...
Perception is fundamentally underconstrained because different combinations of object properties can...
When we actively explore with our hands (haptics), the brain must combine diverse sensory signals in...
Abstract — We have performed a psychophysical experiment to investigate differences in perceived obj...
How does the size of an object that you can only see compare to that of an object you can only feel?...
In six experiments, subjects judged the sizes of squares that were presented visually and/or haptica...
abstract: Humans rely on a complex interworking of visual, tactile and proprioceptive feedback to ac...
The present study investigated the human ability to discriminate the size of 3-D objects by touch. E...
An object's visual image size is an ambiguous cue to its physical size. But if the object's distance...
The present thesis investigated the perception of volume, weight and roughness when exploring 3-dime...
Although the existence of haptic size aftereffects has been known for quite some time, e.g. [1, 8, 1...
Studies of visual size perception with the method of magnitude estimation have shown a linear relati...
AbstractVision and haptics have different limitations and advantages because they obtain information...
Visual and haptic size perception of length (1D), area (2D), and volume (3D) was investigated with t...
Haptic perception of volume (Experiment 1) and surface area (Experiment 2) was studied with tetrahed...
Determining distances to objects is one of the most ubiquitous perceptual tasks in everyday life. Ne...
Perception is fundamentally underconstrained because different combinations of object properties can...
When we actively explore with our hands (haptics), the brain must combine diverse sensory signals in...
Abstract — We have performed a psychophysical experiment to investigate differences in perceived obj...
How does the size of an object that you can only see compare to that of an object you can only feel?...
In six experiments, subjects judged the sizes of squares that were presented visually and/or haptica...
abstract: Humans rely on a complex interworking of visual, tactile and proprioceptive feedback to ac...
The present study investigated the human ability to discriminate the size of 3-D objects by touch. E...
An object's visual image size is an ambiguous cue to its physical size. But if the object's distance...
The present thesis investigated the perception of volume, weight and roughness when exploring 3-dime...
Although the existence of haptic size aftereffects has been known for quite some time, e.g. [1, 8, 1...
Studies of visual size perception with the method of magnitude estimation have shown a linear relati...
AbstractVision and haptics have different limitations and advantages because they obtain information...
Visual and haptic size perception of length (1D), area (2D), and volume (3D) was investigated with t...
Haptic perception of volume (Experiment 1) and surface area (Experiment 2) was studied with tetrahed...
Determining distances to objects is one of the most ubiquitous perceptual tasks in everyday life. Ne...
Perception is fundamentally underconstrained because different combinations of object properties can...
When we actively explore with our hands (haptics), the brain must combine diverse sensory signals in...