Add to ORKGA modeling framework is proposed for the control of rigid and flexible cable-like systems such as cranes, together with a systematic algorithm for computing flat outputs of mechanical systems for which the flat output is a linear combination of the free coordinates. Key Lagrange multipliers are shown (i) to impose the condition of cable looseness, and (ii) to act as the extended states in the classical state-space representation. Some examples of cranes and suspended cable robots are given with their corresponding dynamics summarized as a set of well-defined vectors and matrices of real numbers
This paper studies the kinematics and statics of cable-driven parallel robots with less than six cab...
none2siThis paper studies cable-driven parallel robots with less than six cables, in crane configura...
Published in International Journal of Advances in Computer Science & its Applications, IJCSIA, 5(2):...
A modeling framework is proposed for the control of rigid and flexible cable-like systems such as cr...
In this paper a very easy, numerically stable and computationally efficient method is presented, whi...
In this paper a very easy, numerically stable and computationally efficient method is presented, whi...
In this paper a very easy, numerically stable and computationally efficient method is presented, whi...
none2This paper studies the kinematics and statics of cable-driven parallel robots with less than si...
In this paper, a very easy, numerically stable and computationally efficient method is presented, wh...
This paper studies cable-driven parallel robots with less than six cables, in crane configuration. A...
In this paper, a very easy, numerically stable and computationally efficient method is presented, wh...
This paper studies the kinematics and statics of cable-driven parallel robots with less than six cab...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
This paper studies cable-driven parallel robots with less than six cables, in crane configuration. A...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
This paper studies the kinematics and statics of cable-driven parallel robots with less than six cab...
none2siThis paper studies cable-driven parallel robots with less than six cables, in crane configura...
Published in International Journal of Advances in Computer Science & its Applications, IJCSIA, 5(2):...
A modeling framework is proposed for the control of rigid and flexible cable-like systems such as cr...
In this paper a very easy, numerically stable and computationally efficient method is presented, whi...
In this paper a very easy, numerically stable and computationally efficient method is presented, whi...
In this paper a very easy, numerically stable and computationally efficient method is presented, whi...
none2This paper studies the kinematics and statics of cable-driven parallel robots with less than si...
In this paper, a very easy, numerically stable and computationally efficient method is presented, wh...
This paper studies cable-driven parallel robots with less than six cables, in crane configuration. A...
In this paper, a very easy, numerically stable and computationally efficient method is presented, wh...
This paper studies the kinematics and statics of cable-driven parallel robots with less than six cab...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
This paper studies cable-driven parallel robots with less than six cables, in crane configuration. A...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
This paper studies the kinematics and statics of cable-driven parallel robots with less than six cab...
none2siThis paper studies cable-driven parallel robots with less than six cables, in crane configura...
Published in International Journal of Advances in Computer Science & its Applications, IJCSIA, 5(2):...