Humans constantly interact with objects by touching, displacing, or manipulating them, and tactile information from the fingertip skin is of primary importance in this process. The skin is a viscoelastic tissue that contains thousands of mechanoreceptors, which are stimulated by skin deformation and provide information about a touched surface or an object held. To optimally control arm movement or fingertip force during object manipulation, the central nervous system (CNS) integrates this tactile information. In this thesis, a « bottom-up » approach has been used to describe the link between skin mechanical properties and brain motor control of movement. Skin mechanical deformation at the interface between the fingertip and a glass surface ...
Tactile perception happens when scanning the fingertip on object surfaces (haptic sensing), by activ...
During active object manipulation, the finger-object interactions give rise to complex fingertip ski...
Dexterous manipulation of objects heavily relies on the feedback provided by the tactile afferents i...
Coordination between the normal force exerted by fingers on a held object and the tangential constra...
People frequently touch objects with their fingers. The physical deformation of a finger pressing an...
From the child playing with its toys to the surgeon holding its scalpel, object manipulation in ever...
The dynamics of fingertip contact manifest themselves in the complex skin movements observed during ...
Touch allows us to perceive the physical properties of the surrounding world. The numerous tactile a...
Our sense of touch is essential in everyday life. It enables us to execute fast and accurate manipul...
Pressing the fingertips into surfaces causes skin deformations that enable humans to grip objects an...
When humans manipulate an object, the minimal grip force (GF) required to avoid slipping depends on ...
Mechanosensory inputs arising from dynamic interactions between the skin and moisture, such as when ...
BACKGROUND/PURPOSE: The mechanical properties of the fingertip skin are very important when studying...
This work focuses on the friction in contacts where the human finger pad is one of the interacting s...
International audienceWhen we touch an object, complex frictional forces are produced, aiding us in ...
Tactile perception happens when scanning the fingertip on object surfaces (haptic sensing), by activ...
During active object manipulation, the finger-object interactions give rise to complex fingertip ski...
Dexterous manipulation of objects heavily relies on the feedback provided by the tactile afferents i...
Coordination between the normal force exerted by fingers on a held object and the tangential constra...
People frequently touch objects with their fingers. The physical deformation of a finger pressing an...
From the child playing with its toys to the surgeon holding its scalpel, object manipulation in ever...
The dynamics of fingertip contact manifest themselves in the complex skin movements observed during ...
Touch allows us to perceive the physical properties of the surrounding world. The numerous tactile a...
Our sense of touch is essential in everyday life. It enables us to execute fast and accurate manipul...
Pressing the fingertips into surfaces causes skin deformations that enable humans to grip objects an...
When humans manipulate an object, the minimal grip force (GF) required to avoid slipping depends on ...
Mechanosensory inputs arising from dynamic interactions between the skin and moisture, such as when ...
BACKGROUND/PURPOSE: The mechanical properties of the fingertip skin are very important when studying...
This work focuses on the friction in contacts where the human finger pad is one of the interacting s...
International audienceWhen we touch an object, complex frictional forces are produced, aiding us in ...
Tactile perception happens when scanning the fingertip on object surfaces (haptic sensing), by activ...
During active object manipulation, the finger-object interactions give rise to complex fingertip ski...
Dexterous manipulation of objects heavily relies on the feedback provided by the tactile afferents i...