Interpolation of a robot joint trajectory is realized using trigonometric splines. This original application has several advantages over existing methods (e.g. those using algebraic splines). For example, the computational expense is lower, more constraints can be imposed on the trajectory, obstacle avoidance can be implemented in real time, and smoother trajectories are obtained. Some of the spline parameters can be chosen to minimize an objective function (e.g. minimum jerk or minimum energy). If jerk is minimized, the optimization has a closed form solution. This paper introduces a trajectory interpolation algorithm, discusses a method for path optimization, and includes examples
The time optimal path tracking for industrial robots regards the problem of generating trajectories ...
This paper presents a new method for the planning of robot trajectories. The method presented assume...
Abstract—A new approach based on interval analysis is devel-oped to find the global minimum-jerk (MJ...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This original app...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This method is ba...
Interpolation of a sequence of desired robot configurations is realized using trigonometric splines....
This dissertation presents a unified methodology for the solution of the robot path planning problem...
Approximation of a desired robot path can be accomplished by interpolating a curve through a sequenc...
Approximation of a desired robot path can be accomplished by interpolating a curve through a sequenc...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
A robot trajectory planning problem is considered. Using smooth interpolating cubic splines as joint...
In this paper, methods based on various spline techniques for planning and fast modifications of a t...
The problem of generating smooth trajectories of me-chanical systems is particularly important in ro...
In robot manipulator trajectory planning, jerk controlled trajectories are desirable for their amen...
The time optimal path tracking for industrial robots regards the problem of generating trajectories ...
This paper presents a new method for the planning of robot trajectories. The method presented assume...
Abstract—A new approach based on interval analysis is devel-oped to find the global minimum-jerk (MJ...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This original app...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This method is ba...
Interpolation of a sequence of desired robot configurations is realized using trigonometric splines....
This dissertation presents a unified methodology for the solution of the robot path planning problem...
Approximation of a desired robot path can be accomplished by interpolating a curve through a sequenc...
Approximation of a desired robot path can be accomplished by interpolating a curve through a sequenc...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
A robot trajectory planning problem is considered. Using smooth interpolating cubic splines as joint...
In this paper, methods based on various spline techniques for planning and fast modifications of a t...
The problem of generating smooth trajectories of me-chanical systems is particularly important in ro...
In robot manipulator trajectory planning, jerk controlled trajectories are desirable for their amen...
The time optimal path tracking for industrial robots regards the problem of generating trajectories ...
This paper presents a new method for the planning of robot trajectories. The method presented assume...
Abstract—A new approach based on interval analysis is devel-oped to find the global minimum-jerk (MJ...