Path-Accurate Online Trajectory Generation for Jerk-Limited Industrial Robots

Friedrich Lange; Alin Albu-Schäffer

doi:10.1109/LRA.2015.2506899

Path-Accurate Online Trajectory Generation for Jerk-Limited Industrial Robots

Friedrich Lange, Alin Albu-Schäffer

Informatics 23 - Chair of Sensor-based Robotic Systems and Intelligent Assistance Systems

Deutsches Zentrum für Luft- und Raumfahrt (DLR)

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Standard industrial controllers of robot arms define constraints on the velocity, the acceleration, and the jerk and abort execution in case any of them is violated. In addition to satisfying these constraints, the presented method tries to generate a trajectory that is path-accurate, i.e., that exactly tracks the 6-dof shape of the desired path in axis space. Furthermore, the computed trajectory is as close as possible to the original robot program. This is reached by forward scaling and backtracking until a feasible trajectory is obtained. In contrast to previous work, blending of subsequent segments of the desired path is prevented by interpolation of the arc length instead of direct position interpolation. Because of its time-efficiency the algorithm can be applied in each sampling step, e.g., every 4 ms for a standard KUKA robot with RSI interface. Experimental results demonstrate the approach.

Original language	English
Article number	7350121
Pages (from-to)	82-89
Number of pages	8
Journal	IEEE Robotics and Automation Letters
Volume	1
Issue number	1
DOIs	https://doi.org/10.1109/LRA.2015.2506899
State	Published - Jan 2016

Keywords

Trajectory generation
industrial robots
motion control of manipulators

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10.1109/LRA.2015.2506899

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abstract = "Standard industrial controllers of robot arms define constraints on the velocity, the acceleration, and the jerk and abort execution in case any of them is violated. In addition to satisfying these constraints, the presented method tries to generate a trajectory that is path-accurate, i.e., that exactly tracks the 6-dof shape of the desired path in axis space. Furthermore, the computed trajectory is as close as possible to the original robot program. This is reached by forward scaling and backtracking until a feasible trajectory is obtained. In contrast to previous work, blending of subsequent segments of the desired path is prevented by interpolation of the arc length instead of direct position interpolation. Because of its time-efficiency the algorithm can be applied in each sampling step, e.g., every 4 ms for a standard KUKA robot with RSI interface. Experimental results demonstrate the approach.",

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AB - Standard industrial controllers of robot arms define constraints on the velocity, the acceleration, and the jerk and abort execution in case any of them is violated. In addition to satisfying these constraints, the presented method tries to generate a trajectory that is path-accurate, i.e., that exactly tracks the 6-dof shape of the desired path in axis space. Furthermore, the computed trajectory is as close as possible to the original robot program. This is reached by forward scaling and backtracking until a feasible trajectory is obtained. In contrast to previous work, blending of subsequent segments of the desired path is prevented by interpolation of the arc length instead of direct position interpolation. Because of its time-efficiency the algorithm can be applied in each sampling step, e.g., every 4 ms for a standard KUKA robot with RSI interface. Experimental results demonstrate the approach.

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Path-Accurate Online Trajectory Generation for Jerk-Limited Industrial Robots

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