Learning how to combine sensory-motor functions into a robust behavior

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Abstract

This article describes a system, called Robel, for defining a robot controller that learns from experience very robust ways of performing a high-level task such as “navigate to”. The designer specifies a collection of skills, represented as hierarchical tasks networks, whose primitives are sensory-motor functions. The skills provide different ways of combining these sensory-motor functions to achieve the desired task. The specified skills are assumed to be complementary and to cover different situations. The relationship between control states, defined through a set of task-dependent features, and the appropriate skills for pursuing the task is learned as a finite observable Markov decision process (MDP). This MDP provides a general policy for the task; it is independent of the environment and characterizes the abilities of the robot for the task.

Keywords

Robot behavior
Sensory-motor function
Skill
Planning
Learning

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The authors collaborated for this work when both where with LAAS-CNRS, University of Toulouse, France.