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Acquisition of obstacle motion patterns to improve mobile robot motion planning

Eckhard Kruse, R. Gutsche, Friedrich M. Wahl

Year
1997
Citations
2

Abstract

Abstract Mobile robots for advanced applications have to act in environments which contain moving obstacles (humans). Even though the motions of such obstacles are not precisely predictable, usually they are not completely random; long-term observation of obstacle behavior may thus yield valuable knowledge about prevailing motion patterns. By incorporating such knowledge as statistical data, a new approach called statistical motion planning yields robot motions which are better adapted to the dynamic environment. To put these ideas into practice, an experimental system has been developed. Cameras observe the workspace in order to detect obstacle motion. Statistical data is derived and represented as a set of stochastic trajectories. This data can be directly employed in order to calculate collision probability, i.e. the probability of encountering an obstacle during the robot's motion. Further aspects of motion planning are addressed: path planning which minimizes collision probability, estimation of expected time to reach the goal and reactive planning. Keywords: Mobile robotsmotion planningmoving obstaclesstatistical modelscollision probabilityglobal monitoring systemimage processing

Keywords

ObstacleMotion planningMobile robotComputer scienceWorkspaceMotion (physics)RobotArtificial intelligenceComputer visionKinematics

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