In this paper, we build upon recent advances in neuroscience research which have shown that control of the human hand during grasping is dominated by movement in a configuration space of highly reduced dimensionality. We extend this concept to robotic hands and show how a similar dimensionality reduction can be defined for a number of different hand models. This framework can be used to derive planning algorithms that produce stable grasps even for highly complex hand designs. Furthermore, it offers a unified approach for controlling different hands, even if the kinematic structures of the models are significantly different. We illustrate these concepts by building a comprehensive grasp planner that can be used on a large variety of robotic...
Several aspects have to be addressed before realizing the dream of a robotic hand-arm system with hu...
This paper discusses the scale-dependent grasp.Suppose that a human approaches an object initially p...
This paper addresses the problem of optimal grasping of an object with a multi-fingered robotic hand...
The human hand is an excellent example of versatile architecture which can easily accomplish numerou...
Dextrous robot hands have many degrees of freedom. This enables the manipulation of objects between...
In everyday life, people use a large diversity of hands configurations while reaching out to grasp a...
This review reports the principal solutions proposed in the literature to reduce the complexity of t...
Humans tend to simplify the space of possible grasps they can perform. Yet, the description of human...
Abstract — Redundant tendon-driven systems such as the human hand or the ACT robotic hand are high-d...
Planning realizable and stable grasps on 3D objects is crucial for many robotics applications, but g...
This review reports the principal solutions proposed in the literature to reduce the complexity of t...
Our primary interaction with the world is through the spontaneous generation of movement. In particu...
Although human movements are extremely complex, our nervous system is able to implement effective co...
This book looks at the common problems both human and robotic hands encounter when controlling the l...
This paper considers a grasp planning scheme for dextrous hands. The grasp is assumed to be a precis...
Several aspects have to be addressed before realizing the dream of a robotic hand-arm system with hu...
This paper discusses the scale-dependent grasp.Suppose that a human approaches an object initially p...
This paper addresses the problem of optimal grasping of an object with a multi-fingered robotic hand...
The human hand is an excellent example of versatile architecture which can easily accomplish numerou...
Dextrous robot hands have many degrees of freedom. This enables the manipulation of objects between...
In everyday life, people use a large diversity of hands configurations while reaching out to grasp a...
This review reports the principal solutions proposed in the literature to reduce the complexity of t...
Humans tend to simplify the space of possible grasps they can perform. Yet, the description of human...
Abstract — Redundant tendon-driven systems such as the human hand or the ACT robotic hand are high-d...
Planning realizable and stable grasps on 3D objects is crucial for many robotics applications, but g...
This review reports the principal solutions proposed in the literature to reduce the complexity of t...
Our primary interaction with the world is through the spontaneous generation of movement. In particu...
Although human movements are extremely complex, our nervous system is able to implement effective co...
This book looks at the common problems both human and robotic hands encounter when controlling the l...
This paper considers a grasp planning scheme for dextrous hands. The grasp is assumed to be a precis...
Several aspects have to be addressed before realizing the dream of a robotic hand-arm system with hu...
This paper discusses the scale-dependent grasp.Suppose that a human approaches an object initially p...
This paper addresses the problem of optimal grasping of an object with a multi-fingered robotic hand...