Maher Khatib scite author profile

This paper presents an operational framework to bridge the gap between planning with uncertainty and real-time sensor-based motion control. The environment being known, a planner produces a plan composed of free space and sensor-based motion commands. The representations of uncertainty and its evolution, environment landmarks, and actions generated at the planning level are discussed. Sensor-based actions and command de nitions for a nonholonomic mobile robot based on a Task-Potential eld approach are developed. These various elements are integrated in a system that actually generates the motions of the Hilare2 mobile robot.

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Maher Khatib

Dynamic path modification for car-like nonholonomic mobile robots

Reactive navigation in outdoor environments using potential fields

A general framework for multi-robot cooperation and its implementation on a set of three hilare robots

Indoor navigation with uncertainty using sensor-based motions

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