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From 2D Design of Underactuated Bipedal Gaits to 3D Implementation: Walking With Speed Tracking

Xingye Da, Omar Harib, Ross Hartley, Brent Griffin, Jessy W. Grizzle

Year
2016
Citations
110
Access
Open access

Abstract

Analysis and controller design methods abound in the literature for planar (also known as 2-D) bipedal models. This paper takes one of them developed for underactuated bipeds and documents the process of designing a family of controllers on the basis of a planar model and achieving stable walking on a physical 3-D robot, both indoors and outdoors, with walking speed varying smoothly from 0 to 0.8 m/s. The longest walk in a single experiment is 260 m over terrain with ±7° of slope variation. Advantages and disadvantages of the design approach are discussed.

Keywords

UnderactuationComputer scienceTracking (education)BipedalismTrajectoryControl theory (sociology)Control engineeringRobotControl (management)Artificial intelligence

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