This paper presents the development of the mathematical model and controller of a light weight and small size robot finger. The finger possesses self adaptive grasping capability and is made of seven bar linkages with a slider or lead screw mechanism in the middle phalanx to adjust its effective length in realizing both pinching and grasping tasks. The dynamic model of the linkages is integrated with the electrical motors mathematical description to represent the whole robotic system. Numerical simulations have been carried out to study the finger’s dynamic behaviour under the Proportional Integral Derivative (PID) control
In the present paper a model of a tendon drive robotic gripper is proposed. The aim of the activity ...
In this study a proposed PID control system for (Ca.U.M.Ha) robotic hand with a finger and a thumb i...
This article presents a novel under-actuated robot hand, which has a thumb and two cooperative finge...
This paper presents the development of the mathematical model and controller of a light weight and ...
The experimental study of position control of a light weight and small size robotic finger during no...
The experimental study of position control of a light weight and small size robotic finger during n...
This paper concerns studies on a gripping member consisting essentially of a underactuated mechanism...
New generations of dexterous robotic hands with high degrees of freedom, integrated advanced sensors...
In the present paper, a model of an underactuated robotic hand with tendon driven fingers is propose...
This paper introduces an anthropomorphic robot hand that has variable grasping stiffness to unknown ...
In the paper a study on an underactuated finger for a robotic hand is presented. The mechanical hand...
This paper presents an innovative design concept for an underactuated robotic finger which can perfo...
This paper presents the design of cascade controller for robotic fingers designed based on an anthr...
Underactuated robotic grippers have the advantage of lower cost, simpler control, and higher safety ...
Abstract: One of the major limitations of object manipulation with a robotic hand is the fragility o...
In the present paper a model of a tendon drive robotic gripper is proposed. The aim of the activity ...
In this study a proposed PID control system for (Ca.U.M.Ha) robotic hand with a finger and a thumb i...
This article presents a novel under-actuated robot hand, which has a thumb and two cooperative finge...
This paper presents the development of the mathematical model and controller of a light weight and ...
The experimental study of position control of a light weight and small size robotic finger during no...
The experimental study of position control of a light weight and small size robotic finger during n...
This paper concerns studies on a gripping member consisting essentially of a underactuated mechanism...
New generations of dexterous robotic hands with high degrees of freedom, integrated advanced sensors...
In the present paper, a model of an underactuated robotic hand with tendon driven fingers is propose...
This paper introduces an anthropomorphic robot hand that has variable grasping stiffness to unknown ...
In the paper a study on an underactuated finger for a robotic hand is presented. The mechanical hand...
This paper presents an innovative design concept for an underactuated robotic finger which can perfo...
This paper presents the design of cascade controller for robotic fingers designed based on an anthr...
Underactuated robotic grippers have the advantage of lower cost, simpler control, and higher safety ...
Abstract: One of the major limitations of object manipulation with a robotic hand is the fragility o...
In the present paper a model of a tendon drive robotic gripper is proposed. The aim of the activity ...
In this study a proposed PID control system for (Ca.U.M.Ha) robotic hand with a finger and a thumb i...
This article presents a novel under-actuated robot hand, which has a thumb and two cooperative finge...
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