1. A Topological Approach to Gait Generation for Biped Robots.
- Author
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Rosa, Nelson and Lynch, Kevin M.
- Subjects
- *
HOLONOMIC constraints , *TRAJECTORY optimization , *ROBOTS , *BIPEDALISM , *PSYCHOLOGICAL feedback , *CONTINUATION methods , *CHEMICAL templates , *WALKABILITY - Abstract
This article describes a topological approach to generating families of open- and closed-loop walking gaits for underactuated 2-D and 3-D biped walkers subject to configuration inequality constraints, physical holonomic constraints (e.g., closed-loop linkages), and virtual holonomic constraints (user-defined constraints enforced through feedback control). Our method constructs implicitly defined manifolds of feasible periodic gaits within a state-time-control space that parameterizes the biped’s hybrid trajectories. Since equilibrium configurations of the biped often belong to such manifolds, we use equilibria as “templates” from which to grow the gait families. Equilibria are reliable seeds for the construction of gait families, eliminating the need for random, intuited, or bio-inspired initial guesses at feasible trajectories in an optimization framework. We demonstrate the approach on several 2-D and 3-D biped walkers. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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