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Whole-Body Balance Control of a Humanoid Robot in Real Time Based on ZMP Stability Regions Approach

Concepción A. Monje, Santiago Martínez, Paolo Pierro, Carlos Balaguer

Year
2018
Citations
3

Abstract

One of the most important and complex tasks for a humanoid robot is to avoid overturning during a bipedal gait. This work aims at setting the base for designing a general balance controller to be used with any humanoid robot. In addition, it is based on a strong simplification of humanoid model which attempts to be used in real-time applications. In particular, several “stability zones” are defined as function of the criticalness of balance. The results are presented in simulation and experimentally, using the humanoid platforms HOAP-3 and TEO.

Keywords

Humanoid robotBalance (ability)Computer scienceController (irrigation)Stability (learning theory)Control theory (sociology)GaitRobotDynamic balanceWork (physics)

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