Abstract
The vast majority of work to date concerned with obstacle avoidance for manipulators has dealt with task descriptions in the form ofpick-and-place movements. The added flexibil ity in motion control for manipulators possessing redundant degrees offreedom permits the consideration of obstacle avoidance in the context of a specified end-effector trajectory as the task description. Such a task definition is a more accurate model for such tasks as spray painting or arc weld ing. The approach presented here is to determine the re quired joint angle rates for the manipulator under the con straints of multiple goals, the primary goal described by the specified end-effector trajectory and secondary goals describ ing the obstacle avoidance criteria. The decomposition of the solution into a particular and a homogeneous component effectively illustrates the priority of the multiple goals that is exact end-effector control with redundant degrees of freedom maximizing the distance to obstacles. An efficient numerical implementation of the technique permits sufficiently fast cycle times to deal with dynamic environments.
Keywords
Obstacle avoidanceObstacleContext (archaeology)Computer scienceRobot end effectorTask (project management)TrajectoryControl theory (sociology)Degrees of freedom (physics and chemistry)Component (thermodynamics)Artificial intelligenceRobotControl engineeringControl (management)Mobile robotEngineering
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Publication Info
- Year
- 1985
- Type
- article
- Volume
- 4
- Issue
- 3
- Pages
- 109-117
- Citations
- 985
- Access
- Closed
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Cite This
Anthony A. Maciejewski,
Charles A. Klein
(1985).
Obstacle Avoidance for Kinematically Redundant Manipulators in Dynamically Varying Environments.
The International Journal of Robotics Research
, 4
(3)
, 109-117.
https://doi.org/10.1177/027836498500400308
Identifiers
- DOI
- 10.1177/027836498500400308