MANIPULATION
On-line polynomial path planning in Cartesian space for robot manipulators
Cyrille Froissart, P. Mechler
- Year
- 1993
- Citations
- 20
Abstract
SUMMARY A method is presented to perform path planning in the Cartesian space. The motion velocity and acceleration are continuous. This is the first polynomial path planning algorithm in the Cartesian space working in real-time; it does not need an advanced knowledge of the trajectory and can be used when knot points are provided on-line by a sensor. The Bézier representation is used to compute a fifth degree polynomial path. It has been tested on an industrial robot controller.
Keywords
Motion planningCartesian coordinate systemPath (computing)PolynomialComputer scienceLine (geometry)RobotRepresentation (politics)Any-angle path planningIndustrial robot
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