Exploiting underactuation and compliance in design and control of robotic hands represents a lively research topic. Reducing the actuators and increasing uncontrolled degrees of freedom, however may affect dexterity and control capabilities. Observing how humans use their hands in everyday grasping and manipulation tasks, it is evident that our “planner” is not always very precise, and we tend to use the environment to guide our finger trajectories to accomplish with the task. An interesting research challenge consists in providing also to robotics hands the ability of efficiently exploit environmental constraints. As a first step, it is necessary to extend to an augmented grasp system, including the hand, the object and the environment int...
This paper presents an experimental framework to quantify grasp compliance, especially at object bou...
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...
Exploiting underactuation and compliance in design and control of robotic hands represents a lively ...
Underactuation represents a solution to reduce the number of Degrees of Freddom (DoF) of robotic han...
Abstract—We built a highly compliant, underactuated, ro-bust and at the same time dexterous anthropo...
When using a tool with a robotic hand-arm system, the stiffness at the grasped object plays a key ro...
As robots get closer to humans, their ability to safely interact with unstructured environments pro...
Performing a grasp is a pivotal capability for a robotic gripper. We propose a new evaluation approa...
Underactuation in robotic hands is currently attracting a lot of interest from researchers. The chal...
This paper presents an innovative design concept for an underactuated robotic finger which can perfo...
This letter presents a novel controller for robotic hands, which regulates the grasp stiffness by ma...
The availability of grasp quality measures is fundamental for grasp planning and control, and also t...
Abstract — Highly underactuated and passively adaptive robotic hands have shown great promise for ro...
The usefulness and versatility of a robotic end-effector depends on the diversity of grasps it can a...
This paper presents an experimental framework to quantify grasp compliance, especially at object bou...
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...
Exploiting underactuation and compliance in design and control of robotic hands represents a lively ...
Underactuation represents a solution to reduce the number of Degrees of Freddom (DoF) of robotic han...
Abstract—We built a highly compliant, underactuated, ro-bust and at the same time dexterous anthropo...
When using a tool with a robotic hand-arm system, the stiffness at the grasped object plays a key ro...
As robots get closer to humans, their ability to safely interact with unstructured environments pro...
Performing a grasp is a pivotal capability for a robotic gripper. We propose a new evaluation approa...
Underactuation in robotic hands is currently attracting a lot of interest from researchers. The chal...
This paper presents an innovative design concept for an underactuated robotic finger which can perfo...
This letter presents a novel controller for robotic hands, which regulates the grasp stiffness by ma...
The availability of grasp quality measures is fundamental for grasp planning and control, and also t...
Abstract — Highly underactuated and passively adaptive robotic hands have shown great promise for ro...
The usefulness and versatility of a robotic end-effector depends on the diversity of grasps it can a...
This paper presents an experimental framework to quantify grasp compliance, especially at object bou...
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...