Optimal fingertip forces can always be computed through the well-known optimization algorithms. However, computation time has always remained a real-time constraint. This article presents an efficient scheme to compute optimal grasping and manipulation forces for dexterous robotics hands. This is expressed as a quadratic optimization problem, and an artificial neural network (ANN) is used to learn such quadratic optimization formulations. Computation has been based on a nonlinear model of fingertip contacts and slips. In achieving object grasping while in motion, the hand Jacobian is considered an important matrix to be computed, but it is also highly intensive for real-time computed applications. Consequently, we investigated an efficient ...
The ultimate goal of robotic grasping and manipulation research is to obtain the same grasp stabilit...
Abstract—Estimating human fingertip forces is required to understand force distribution in grasping ...
This paper proposes a method for modeling and planning the grasping configuration of a robotic hand ...
In this paper, the feedforward neural network with Levenberg-Marquardt backpropagation training algo...
The hand has been a great tool for humans with the advantage of dexterous function and power to do d...
The problem of grasping force optimization for a robotic system equipped with multi-fingered hands i...
The problem of grasping force optimization (GFO) for a multi-fingered robotic hand is considered in ...
Abstract — The problem of grasping force optimization for a robotic system equipped with multi-finge...
A fundamental requirement for assistive robots is to guarantee a safe and human-like way to perform ...
Abstract: It is important for robotic hands to obtain optimal grasping performance in the meanwhile ...
Abstract — The problem of grasping force optimization (GFO) for a multi-fingered robotic hand is con...
When grasping objects with a multi-finger hand, it is crucial for the grasp stability to apply the c...
Abstract - Hierarchical and wider applications of robots, manipulators, and pick and place machines ...
This paper proposes the use of artificial neural networks (ANNs) in the framework of a biomechanica...
Three most important problems in dextrous manipulation by multifingered robotic hands are the optima...
The ultimate goal of robotic grasping and manipulation research is to obtain the same grasp stabilit...
Abstract—Estimating human fingertip forces is required to understand force distribution in grasping ...
This paper proposes a method for modeling and planning the grasping configuration of a robotic hand ...
In this paper, the feedforward neural network with Levenberg-Marquardt backpropagation training algo...
The hand has been a great tool for humans with the advantage of dexterous function and power to do d...
The problem of grasping force optimization for a robotic system equipped with multi-fingered hands i...
The problem of grasping force optimization (GFO) for a multi-fingered robotic hand is considered in ...
Abstract — The problem of grasping force optimization for a robotic system equipped with multi-finge...
A fundamental requirement for assistive robots is to guarantee a safe and human-like way to perform ...
Abstract: It is important for robotic hands to obtain optimal grasping performance in the meanwhile ...
Abstract — The problem of grasping force optimization (GFO) for a multi-fingered robotic hand is con...
When grasping objects with a multi-finger hand, it is crucial for the grasp stability to apply the c...
Abstract - Hierarchical and wider applications of robots, manipulators, and pick and place machines ...
This paper proposes the use of artificial neural networks (ANNs) in the framework of a biomechanica...
Three most important problems in dextrous manipulation by multifingered robotic hands are the optima...
The ultimate goal of robotic grasping and manipulation research is to obtain the same grasp stabilit...
Abstract—Estimating human fingertip forces is required to understand force distribution in grasping ...
This paper proposes a method for modeling and planning the grasping configuration of a robotic hand ...