Add to ORKGThis paper describes a new geometrical method to solve the inverse kinematic problem for hyper redundant manipulators. The proposed method finds one solution from these infinite solutions. By using this method, the angles between each adjacent links are the same, which makes controlling the movement of these links easier and makes a lining up of two or more joint axes not possible, i.e. very effective for avoiding singularities. A comparison between the proposed manipulator and the PUMA manipulator has been carried out. The manipulability index of both manipulators has been calculated to show the effectiveness of the proposed method. Experiments have been conducted on three links manipulator
Redundant manipulators have some advantages when compared wih classical arms because they allow the ...
Redundant manipulators have some advantages when compared wih classical arms because they allow the ...
Redundant manipulators have some advantages when compared with classical arms because they allow the...
Hyper-redundant manipulators have large number of kinematic degrees of freedom, thus processing some...
Obtaining the joint variables that result in a desired position of the robot end-effector called as ...
A solution based on inverse kinematics is required for the robot's end effector, also known as its t...
Motion planning capability is an essential part of an industrial robot system. Therefore research in...
An iterative method using the neural networks to solve the inverse kinematics problem for equal leng...
In this paper a new approach that generates a general algorithm for n-link hyper-redundant robot is...
In this paper a new approach that generates a general algorithm for n-link hyper-redundant robot is...
Hyper-Redundant robotic manipulators like Serial robots, Snake robots, Tentacle robots or Continuum ...
A method is presented for generating inverse kinematic solutions for hyper-redundant manipulators of...
A method is presented for generating inverse kinematic solutions for hyper-redundant manipulators of...
Redundant manipulators have some advantages when compared with classical arms because they allow a t...
The paper presents an application of Interval Newton method to solve the inverse kinematics and redu...
Redundant manipulators have some advantages when compared wih classical arms because they allow the ...
Redundant manipulators have some advantages when compared wih classical arms because they allow the ...
Redundant manipulators have some advantages when compared with classical arms because they allow the...
Hyper-redundant manipulators have large number of kinematic degrees of freedom, thus processing some...
Obtaining the joint variables that result in a desired position of the robot end-effector called as ...
A solution based on inverse kinematics is required for the robot's end effector, also known as its t...
Motion planning capability is an essential part of an industrial robot system. Therefore research in...
An iterative method using the neural networks to solve the inverse kinematics problem for equal leng...
In this paper a new approach that generates a general algorithm for n-link hyper-redundant robot is...
In this paper a new approach that generates a general algorithm for n-link hyper-redundant robot is...
Hyper-Redundant robotic manipulators like Serial robots, Snake robots, Tentacle robots or Continuum ...
A method is presented for generating inverse kinematic solutions for hyper-redundant manipulators of...
A method is presented for generating inverse kinematic solutions for hyper-redundant manipulators of...
Redundant manipulators have some advantages when compared with classical arms because they allow a t...
The paper presents an application of Interval Newton method to solve the inverse kinematics and redu...
Redundant manipulators have some advantages when compared wih classical arms because they allow the ...
Redundant manipulators have some advantages when compared wih classical arms because they allow the ...
Redundant manipulators have some advantages when compared with classical arms because they allow the...