Add to ORKGIn this dissertation, we develop an efficient method of generating minimal jerk trajectories for redundant robots in trajectory following problems. We show that high jerk is a local phenomenon, and therefore focus on optimizing regions of high jerk that occur when using traditional trajectory generation methods. The optimal trajectory is shown to be located on the foliation of self-motion manifolds, and this property is exploited to express the problem as a minimal dimension Bolza optimal control problem. A numerical algorithm based on ideas from pseudo-spectral optimization methods is proposed and applied to two example planar robot structures with two redundant degrees of freedom. When compared with existing trajectory generation methods,...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
In the context of human-robot manipulation interaction for service or industrial robotics, the robot...
This paper proposes a jerk-bounded trajectory generation method using a digital convolution. The s...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
Optimal control for kinematically redundant robots is addressed for two different optimization probl...
We consider the known phenomenon of torque oscillations and motion instabilities that occur in redun...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
In robot manipulator trajectory planning, jerk controlled trajectories are desirable for their amen...
Robotic trajectory generation is reformulated as a controller design problem. For minimum-jerk traje...
This letter presents a new approach to solve the time-optimal path tracking under limited joint rang...
This letter presents a new approach to solve the time-optimal path tracking under limited joint rang...
Interpolation of minimum jerk robot joint trajectories through an arbitrary number of knots is reali...
In this paper, a multi-level simultaneous minimization (MLSM) scheme is proposed and investigated to...
Interpolation of minimum jerk robot joint trajectories through an arbitrary number of knots is reali...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
In the context of human-robot manipulation interaction for service or industrial robotics, the robot...
This paper proposes a jerk-bounded trajectory generation method using a digital convolution. The s...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
Optimal control for kinematically redundant robots is addressed for two different optimization probl...
We consider the known phenomenon of torque oscillations and motion instabilities that occur in redun...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
In robot manipulator trajectory planning, jerk controlled trajectories are desirable for their amen...
Robotic trajectory generation is reformulated as a controller design problem. For minimum-jerk traje...
This letter presents a new approach to solve the time-optimal path tracking under limited joint rang...
This letter presents a new approach to solve the time-optimal path tracking under limited joint rang...
Interpolation of minimum jerk robot joint trajectories through an arbitrary number of knots is reali...
In this paper, a multi-level simultaneous minimization (MLSM) scheme is proposed and investigated to...
Interpolation of minimum jerk robot joint trajectories through an arbitrary number of knots is reali...
The trajectory planning of redundant robots is an important area of research and efficient optimizat...
In the context of human-robot manipulation interaction for service or industrial robotics, the robot...
This paper proposes a jerk-bounded trajectory generation method using a digital convolution. The s...