Add to ORKGApproximation of a desired robot path can be accomplished by interpolating a curve through a sequence of joint-space knots. A smooth interpolated trajectory can be realized by using trigonometric splines. But, sometimes the joint trajectory is not required to exactly pass through the given knots. The knots may rather be centers of tolerances near which the trajectory is required to pass. In this article, we optimize trigonometric splines through a given set of knots subject to user-specified knot tolerances. The contribution of this article is the straightforward way in which intermediate constraints (i.e., knot angles) are incorporated into the parameter optimization problem. Another contribution is the exploitation of the decoupled nature...
A new robust, optimal, adaptive technique for compensating rate and position limits in the joints of...
Graduation date: 1989In this thesis, a method is presented to construct minimum-time\ud robot trajec...
The optimal joint angle trajectory planning of light-weight flexible manipulator is investigated bas...
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...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This method is ba...
This paper presents a new method for the planning of robot trajectories. The method presented assume...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
This dissertation presents a unified methodology for the solution of the robot path planning problem...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This original app...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
Interpolation of minimum jerk robot joint trajectories through an arbitrary number of knots is reali...
The paper presents a method of trajectory planning and motion characteristics of a robotic manipulat...
Interpolation of a sequence of desired robot configurations is realized using trigonometric splines....
This work looks at several problems concerned with interpolating rigid-body motions and their applic...
A new robust, optimal, adaptive technique for compensating rate and position limits in the joints of...
Graduation date: 1989In this thesis, a method is presented to construct minimum-time\ud robot trajec...
The optimal joint angle trajectory planning of light-weight flexible manipulator is investigated bas...
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...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This method is ba...
This paper presents a new method for the planning of robot trajectories. The method presented assume...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
This dissertation presents a unified methodology for the solution of the robot path planning problem...
Interpolation of a robot joint trajectory is realized using trigonometric splines. This original app...
A smooth approximation of a desired robot path can be realized by interpolating a sequence of joint-...
Interpolation of minimum jerk robot joint trajectories through an arbitrary number of knots is reali...
The paper presents a method of trajectory planning and motion characteristics of a robotic manipulat...
Interpolation of a sequence of desired robot configurations is realized using trigonometric splines....
This work looks at several problems concerned with interpolating rigid-body motions and their applic...
A new robust, optimal, adaptive technique for compensating rate and position limits in the joints of...
Graduation date: 1989In this thesis, a method is presented to construct minimum-time\ud robot trajec...
The optimal joint angle trajectory planning of light-weight flexible manipulator is investigated bas...