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Decoupled control of the high mobility robot Hylos based on a dynamic stability margin

Guillaume Besseron, Christophe Grand, Faïz Ben Amar, Philippe Bidaud

Year
2008
Citations
34

Abstract

This paper concerns the control of an autonomous high mobility wheel-legged rover crossing uneven terrains. A new control strategy, using active redundancies of the robot, leads to elaborate a posture control based on the potential field approach of the stability measurement. Then a decoupled posture and trajectory control algorithm based on the velocity model of the robot is proposed. Last, simulation results showing performance of the control algorithm are presented.

Keywords

Control theory (sociology)Stability (learning theory)RobotTerrainTrajectoryComputer scienceMargin (machine learning)Mobile robotControl (management)Robot control

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