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Leveraging the Template and Anchor Framework for Safe, Online Robotic Gait Design

Jinsun Liu, Pengcheng Zhao, Zhenyu Gan, Matthew Johnson‐Roberson, Ram Vasudevan

Year
2020
Citations
10

Abstract

Online control design using a high-fidelity, full-order model for a bipedal robot can be challenging due to the size of the state space of the model. A commonly adopted solution to overcome this challenge is to approximate the fullorder model (anchor) with a simplified, reduced-order model (template), while performing control synthesis. Unfortunately it is challenging to make formal guarantees about the safety of an anchor model using a controller designed in an online fashion using a template model. To address this problem, this paper proposes a method to generate safety-preserving controllers for anchor models by performing reachability analysis on template models by relying on functions that bound the difference between the two models. This paper describes how this reachable set can be incorporated into a Model Predictive Control framework to select controllers that result in safe walking on the anchor model in an online fashion. The method is illustrated on a 5-link RABBIT model, and is shown to allow the robot to walk safely while utilizing controllers designed in an online fashion.

Keywords

ReachabilityComputer scienceOnline modelRobotFidelityController (irrigation)Set (abstract data type)Model predictive controlControl (management)Gait

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