This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts of Common Mode Stiffness (CMS) and Configuration Dependent Stiffness (CDS). Using an ellipsoid representation of the desired grasp stiffness, the algorithm focuses on achieving its geometrical features. Based on preliminary knowledge of the fingers workspace, the method starts by exploring the possible hand poses that maintain the grasp contacts on the object. This outputs a first selection of feasible grasp configurations providing the base for the CDS control. Then, an optimization is performed to find the minimum joint stiffness (CMS control) that would stabilize these grasps. This joint stiffness can be increased afterwards depending on the...
Exploiting underactuation and compliance in design and control of robotic hands represents a lively ...
The usefulness and versatility of a robotic end-effector depends on the diversity of grasps it can a...
In this work, we propose a method to compute the stiffness of flexible joints and its realization in...
This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts of...
This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts of...
<p>This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts...
This letter presents a novel controller for robotic hands, which regulates the grasp stiffness by ma...
This paper addresses a method of satisfactorily controlling the grasp of objects. Emphasis is placed...
AbstractWhen using a tool with a robotic hand-arm system, the stiffness at the grasped object plays ...
While dexterous robotic manipulation research has made significant advancements in the last two deca...
textOne of the greatest challenges in controlling robotic hands is grasping and manipulating objects...
A fundamental requirement for assistive robots is to guarantee a safe and human-like way to perform ...
Exploiting underactuation and compliance in design and control of robotic hands represents a lively ...
The usefulness and versatility of a robotic end-effector depends on the diversity of grasps it can a...
In this work, we propose a method to compute the stiffness of flexible joints and its realization in...
This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts of...
This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts of...
<p>This work presents a bio-inspired grasp stiffness control for robotic hands based on the concepts...
This letter presents a novel controller for robotic hands, which regulates the grasp stiffness by ma...
This paper addresses a method of satisfactorily controlling the grasp of objects. Emphasis is placed...
AbstractWhen using a tool with a robotic hand-arm system, the stiffness at the grasped object plays ...
While dexterous robotic manipulation research has made significant advancements in the last two deca...
textOne of the greatest challenges in controlling robotic hands is grasping and manipulating objects...
A fundamental requirement for assistive robots is to guarantee a safe and human-like way to perform ...
Exploiting underactuation and compliance in design and control of robotic hands represents a lively ...
The usefulness and versatility of a robotic end-effector depends on the diversity of grasps it can a...
In this work, we propose a method to compute the stiffness of flexible joints and its realization in...