The work presented in this paper focus on underwater operation technology, combined with the kinematics structure characteristics of a self-developed 7-function underwater hydraulic manipulator, a method of the manipulator’s inverse kinematics is proposed. Using the combined method, in the case of knowing the manipulator end-effector’s position and attitude, analytic solution of each joint can be solved quickly. This method is combined with the characteristics of Euler method and geometric method, the former three joint angles are achieved through the Euler method, and the last three joint angles are obtained through geometric method. The effectiveness of the method is verified by simulation and experiment on writing word &ldquo...
Underwater robotic systems can be used for a variety of operations, from reparations of sub-sea inst...
It is proposed to use anchor manipulators to provide a stable operating environment for underwater r...
The article develops a generic framework for the control of a dual-manipulator mobile robotic system...
The work presented in this paper focus on underwater operation technology, combined with the kinemat...
Abstract: This paper gives a mechanism design of a six DOF hydraulically actuated manipulator firstl...
7-Function underwater hydraulic manipulator can be mounted on underwater vehicles such as ROVs to ac...
7-Function underwater hydraulic manipulator can be mounted on underwater vehicles such as ROVs to ac...
The inverse kinematics plays an important role in the trajectory planning and the control of underwa...
This paper introduces dual-arm underwater manipulators mounted on an autonomous underwater vehicle (...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
The design and realization of a 7-Function master-slave deep-sea hydraulic manipulator can be used i...
The design and realization of a 7-Function master-slave deep-sea hydraulic manipulator can be used i...
Traditional control of robot manipulators assume that the base of the manipulator is fixed in the en...
本文给出一种运用约束最优化的变尺度法求解Schilling水下机械手运动学逆解的方法。这种方法不仅具有牛顿方法的快速性和理想的总体收敛性,通过迭代求取H阵,不仔在奇异性问题,运用惩罚函数法选取步长,保...
Underwater robotic systems can be used for a variety of operations, from reparations of sub-sea inst...
It is proposed to use anchor manipulators to provide a stable operating environment for underwater r...
The article develops a generic framework for the control of a dual-manipulator mobile robotic system...
The work presented in this paper focus on underwater operation technology, combined with the kinemat...
Abstract: This paper gives a mechanism design of a six DOF hydraulically actuated manipulator firstl...
7-Function underwater hydraulic manipulator can be mounted on underwater vehicles such as ROVs to ac...
7-Function underwater hydraulic manipulator can be mounted on underwater vehicles such as ROVs to ac...
The inverse kinematics plays an important role in the trajectory planning and the control of underwa...
This paper introduces dual-arm underwater manipulators mounted on an autonomous underwater vehicle (...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
The design and realization of a 7-Function master-slave deep-sea hydraulic manipulator can be used i...
The design and realization of a 7-Function master-slave deep-sea hydraulic manipulator can be used i...
Traditional control of robot manipulators assume that the base of the manipulator is fixed in the en...
本文给出一种运用约束最优化的变尺度法求解Schilling水下机械手运动学逆解的方法。这种方法不仅具有牛顿方法的快速性和理想的总体收敛性,通过迭代求取H阵,不仔在奇异性问题,运用惩罚函数法选取步长,保...
Underwater robotic systems can be used for a variety of operations, from reparations of sub-sea inst...
It is proposed to use anchor manipulators to provide a stable operating environment for underwater r...
The article develops a generic framework for the control of a dual-manipulator mobile robotic system...
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