During the motion of one dimensional flexible objects such as ropes, chains, etc., the assumption of constant length is realistic. Moreover,their motion appears to be naturally minimizing some abstract distance measure, wherein the disturbance at one end gradually dies down along the curve defining the object. This paper presents purely kinematic strategies for deriving length-preserving transformations of flexible objects that minimize appropriate ‘motion’. The strategies involve sequential and overall optimization of the motion derived using variational calculus. Numerical simulations are performed for the motion of a planar curve and results show stable converging behavior for single-step infinitesimal and finite perturbations 1 as well...
Abstract. We want to fill a given two-dimensional closed contour as accurately as possible with a fi...
The paper examines the application of a general minimum distance error function to the dimensional ...
Motion planning for a robotic system addresses the problem of finding trajectory and actuator forces...
During the motion of one dimensional flexible objects such as ropes, chains, etc., the assumption of...
For one-dimensional flexible objects such as ropes, chains, hair, the assumption of constant length ...
In gross motion of flexible one-dimensional (1D) objects such as cables, ropes, chains, ribbons and ...
Flexible objects such as a rope or snake move in a way such that their axial length remains almost...
Abstract—We present a new approach to path planning for deformable linear (one-dimensional) objects ...
Abstract—We present a new approach to path planning for deformable linear (one-dimensional) objects ...
In meiner Diplomarbeit werde ich das Thema über die Optimierung der kinematische Ketten darstellen, ...
Abstract — We present a new approach to path planning for flexible wires. We introduce a method for ...
In this thesis I will propose the topic of the optimization of the kinematic chains, discuss the pos...
This paper tackles the problem of computing smooth, optimal trajectories on the Euclidean group of m...
In the context of the mechatronic design of lightweight machines and robots, this paper studies opti...
This paper deals with a new method for controlling kinematically articulated systems. Unlike traditi...
Abstract. We want to fill a given two-dimensional closed contour as accurately as possible with a fi...
The paper examines the application of a general minimum distance error function to the dimensional ...
Motion planning for a robotic system addresses the problem of finding trajectory and actuator forces...
During the motion of one dimensional flexible objects such as ropes, chains, etc., the assumption of...
For one-dimensional flexible objects such as ropes, chains, hair, the assumption of constant length ...
In gross motion of flexible one-dimensional (1D) objects such as cables, ropes, chains, ribbons and ...
Flexible objects such as a rope or snake move in a way such that their axial length remains almost...
Abstract—We present a new approach to path planning for deformable linear (one-dimensional) objects ...
Abstract—We present a new approach to path planning for deformable linear (one-dimensional) objects ...
In meiner Diplomarbeit werde ich das Thema über die Optimierung der kinematische Ketten darstellen, ...
Abstract — We present a new approach to path planning for flexible wires. We introduce a method for ...
In this thesis I will propose the topic of the optimization of the kinematic chains, discuss the pos...
This paper tackles the problem of computing smooth, optimal trajectories on the Euclidean group of m...
In the context of the mechatronic design of lightweight machines and robots, this paper studies opti...
This paper deals with a new method for controlling kinematically articulated systems. Unlike traditi...
Abstract. We want to fill a given two-dimensional closed contour as accurately as possible with a fi...
The paper examines the application of a general minimum distance error function to the dimensional ...
Motion planning for a robotic system addresses the problem of finding trajectory and actuator forces...