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Acquisition of statistical motion patterns in dynamic environments and their application to mobile robot motion planning

Ethan Kruse, R. Gutsche, Friedrich M. Wahl

Year
2002
Citations
34

Abstract

In recent papers we (1996, 1997) have proposed a new path planning approach for mobile robots: statistical motion planning with respect to typical obstacle behavior in order to improve pre-planning in dynamic environments. In this paper, we present our experimental system: in a real environment, cameras observe the workspace in order to detect obstacle motions and to derive statistical data. We have developed new techniques based on stochastic trajectories to model obstacle behavior. Collision probabilities are calculated for polygonal objects moving on piecewise linear trajectories. The statistical data can be applied directly, thus the entire chain from raw sensor data to a stochastic assessment of robot trajectories is closed. Finally, some new work regarding different applications of statistical motion planning is outlined, including road-map approaches for pre-planning, expected time to reach the goal, and reactive behaviors.

Keywords

Motion planningWorkspaceObstacleMobile robotComputer scienceRobotPiecewise linear functionArtificial intelligenceMotion (physics)Trajectory

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