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Feasibility-Aware Plan Adaptation in Humanoid Gait Generation

Michele Cipriano, Marcos R. O. A. Máximo, Nicola Scianca, Leonardo Lanari, Giuseppe Oriolo

发表年份
2023
引用次数
5

摘要

Most available schemes used for humanoid walking rely on the separation into a planning phase, typically offline, and a Model Predictive Controller (MPC). Moreover, in order for the MPC to work in real time, simplifying assumptions are made both on the template model and on the constraints so that the underlying optimization problem is a Quadratic Programming (QP). The planner is unaware of the underlying humanoid dynamics and of any disturbance acting on the robot. We present an online Feasibility-Aware Plan Adaptation (FAPA) module which can locally adapt footsteps (positions, timings and orientation) in such a way that it guarantees feasibility of the subsequent Intrinsically Stable MPC (IS-MPC) stage. We present two versions of the proposed scheme: one with a fixed regions assignment for placing the footstep and another one where the regions are selected automatically through mixed-integer programming. Simulation results show the effectiveness of the FAPA scheme.

关键词

Humanoid robotComputer scienceQuadratic programmingScheme (mathematics)Model predictive controlPlannerController (irrigation)Adaptation (eye)Integer programmingPlan (archaeology)

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