What question did this study set out to answer?

The aim is to develop a model-based method for controlling joint torques in humanoid robots to maintain balance using contact forces.

October 1, 2010

Dynamic Balance Force Control for compliant humanoid robots

Puntos clave

The aim is to develop a model-based method for controlling joint torques in humanoid robots to maintain balance using contact forces.
Introduced Dynamic Balance Force Control (DBFC) to calculate full body joint torques.
Developed a virtual model controller (DBFC-VMC) for generic force control tasks.
Performed experiments on a force-controlled humanoid robot and simulations to validate the approach.
DBFC successfully determined joint torques leading to stable balance during operation.
Experiments demonstrated effective contact force control aligning with desired COM motion.
Simulation results indicated general-purpose usability of the DBFC method.

Resumen

This paper presents a model-based method, called Dynamic Balance Force Control (DBFC), for determining full body joint torques based on desired COM motion and contact forces for compliant humanoid robots. The center of mass (COM) dynamics are affected directly through contact force control to achieve stable balance. This idea is used to formulate DBFC considering the full rigid-body dynamics of the robot to produce desired contact forces. To achieve generic force control tasks, a virtual model controller, DBFC-VMC, is presented. Results presented from experiments on a force-controlled humanoid robot and simulation demonstrate the general purpose use of this control.

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Cite This Study

Stephens et al. (Fri,) studied this question.

synapsesocial.com/papers/6a154db0b03a896dfa820783 https://doi.org/https://doi.org/10.1109/iros.2010.5648837

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