Constraint-based Gait Control Using Differential Inequalities

Urban, Stella Diniz; Adorno, Bruno Vilhena

doi:10.5281/zenodo.3566763

Published December 7, 2019 | Version v1

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Constraint-based Gait Control Using Differential Inequalities

1. MACRO/UFMG

This paper proposes a bipedal walking controller based on quadratic programming and differential inequalities to keep the gait balance during the complete walking cycle. We design the differential inequalities constraints using geometric primitives within the dual quaternion algebra. Simulations on the lower body of the Poppy humanoid robot show the effectiveness of the approach.

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Technical note

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Zenodo

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Workshop on Applications of Dual Quaternion Algebra to Robotics , Belo Horizonte, Brazil

Technical metadata

Created: December 7, 2019
Modified: July 22, 2024

Constraint-based Gait Control Using Differential Inequalities

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ws-icar2019-UrbanAdorno.pdf

Files (306.2 kB)