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Real-Time Constrained Nonlinear Model Predictive Control on SO(3) for Dynamic Legged Locomotion

Seungwoo Hong, Joon-Ha Kim, Hae-Won Park

发表年份
2020
引用次数
48

摘要

This paper presents a constrained nonlinear model predictive control (NMPC) framework for legged locomotion. The framework assumes a legged robot as a floating base single rigid body with contact forces being applied to the body as external forces. With consideration of orientation dynamics evolving on the rotation manifold SO(3), analytic Jacobians which are necessary for constructing the gradient and the Gauss-Newton Hessian approximation of the objective function are derived. This procedure also includes the reparameterization of the robot orientation on SO(3) to orientation error in the tangent space of that manifold. Obtained gradient and Gauss-Newton Hessian approximation are utilized to solve nonlinear least squares problems formulated from NMPC in a computationally efficient manner. The proposed algorithm is verified on various types of legged robots and gaits in a simulation environment.

关键词

Hessian matrixControl theory (sociology)Model predictive controlNonlinear systemOrientation (vector space)Computer scienceLegged robotRobotTangentManifold (fluid mechanics)

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