Human hands perform amazingly complex dexterous in-hand manipulation tasks stably through modulation of musculotendon stiffness, setting a high standard for the capabilities of robotic manipulators. Applying passive stiffness boundary analysis to quantify human-like stiffness modulation properties on a human-like physical simulation platform, the Anatomically Correct Testbed (ACT) hand, has the potential to further our understanding of the human stiffness parameter modulation that enables this manipulation performance. In this work, a model of human-like index finger endtip stiffness is developed to quantify the passively stable region within a 3D workspace for stable manipulation. The stiffness model shows that biomechanical properties var...
Abstract—We built a highly compliant, underactuated, ro-bust and at the same time dexterous anthropo...
This thesis explores the creation and validations of a simulated musculoskeletal model of the human ...
Abstract — Human levels of dexterity has not been duplicated in a robotic form to date. Dexterity is...
Human hands perform amazingly complex dexterous in-hand manipulation tasks stably through modulation...
While dexterous robotic manipulation research has made significant advancements in the last two deca...
We investigate the relation between grip force and grip stiffness for the human hand with and withou...
Robotic researchers have been greatly inspired by the human hand in the search to design and build a...
This letter presents a novel controller for robotic hands, which regulates the grasp stiffness by ma...
<p>This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts...
textOne of the greatest challenges in controlling robotic hands is grasping and manipulating objects...
The elasticity and damping of the soft tissues of the hand contribute to dexterity while grasping an...
The human motor system is highly redundant, having more kinematic degrees of freedom than necessary ...
Background: The human motor system is highly redundant, having more kinematic degrees of freedom tha...
Human finger joints are conventionally simplified as rigid joints in robotic hand design and biomech...
Recent studies of human arm movements have suggested that the control of stiffness may be important ...
Abstract—We built a highly compliant, underactuated, ro-bust and at the same time dexterous anthropo...
This thesis explores the creation and validations of a simulated musculoskeletal model of the human ...
Abstract — Human levels of dexterity has not been duplicated in a robotic form to date. Dexterity is...
Human hands perform amazingly complex dexterous in-hand manipulation tasks stably through modulation...
While dexterous robotic manipulation research has made significant advancements in the last two deca...
We investigate the relation between grip force and grip stiffness for the human hand with and withou...
Robotic researchers have been greatly inspired by the human hand in the search to design and build a...
This letter presents a novel controller for robotic hands, which regulates the grasp stiffness by ma...
<p>This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts...
textOne of the greatest challenges in controlling robotic hands is grasping and manipulating objects...
The elasticity and damping of the soft tissues of the hand contribute to dexterity while grasping an...
The human motor system is highly redundant, having more kinematic degrees of freedom than necessary ...
Background: The human motor system is highly redundant, having more kinematic degrees of freedom tha...
Human finger joints are conventionally simplified as rigid joints in robotic hand design and biomech...
Recent studies of human arm movements have suggested that the control of stiffness may be important ...
Abstract—We built a highly compliant, underactuated, ro-bust and at the same time dexterous anthropo...
This thesis explores the creation and validations of a simulated musculoskeletal model of the human ...
Abstract — Human levels of dexterity has not been duplicated in a robotic form to date. Dexterity is...