A control architecture for quadruped locomotion over rough terrain

Legged robots have the potential to navigate a much larger variety of terrain than their wheeled counterparts. In this paper we present a hierarchical control architecture that enables a quadruped, the "LittleDog" robot, to walk over rough terrain. The controller consists of a high-level p...

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Published in	2008 IEEE International Conference on Robotics and Automation pp. 811 - 818
Main Authors	Kolter, J.Z., Rodgers, M.P., Ng, A.Y.
Format	Conference Proceeding
Language	English
Published	IEEE 01.05.2008
Subjects	Computer architecture Control systems Gravity Leg Legged locomotion Mobile robots Navigation Robotics and automation Robust control Trajectory
Online Access	Get full text
ISBN	1424416469 9781424416462
ISSN	1050-4729
DOI	10.1109/ROBOT.2008.4543305

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Abstract	Legged robots have the potential to navigate a much larger variety of terrain than their wheeled counterparts. In this paper we present a hierarchical control architecture that enables a quadruped, the "LittleDog" robot, to walk over rough terrain. The controller consists of a high-level planner that plans a set of footsteps across the terrain, a low-level planner that plans trajectories for the robot's feet and center of gravity (COG), and a low-level controller that tracks these desired trajectories using a set of closed-loop mechanisms. We conduct extensive experiments to verify that the controller is able to robustly cross a wide variety of challenging terrains, climbing over obstacles nearly as tall as the robot's legs. In addition, we highlight several elements of the controller that we found to be particularly crucial for robust locomotion, and which are applicable to quadruped robots in general. In such cases we conduct empirical evaluations to test the usefulness of these elements.
AbstractList	Legged robots have the potential to navigate a much larger variety of terrain than their wheeled counterparts. In this paper we present a hierarchical control architecture that enables a quadruped, the "LittleDog" robot, to walk over rough terrain. The controller consists of a high-level planner that plans a set of footsteps across the terrain, a low-level planner that plans trajectories for the robot's feet and center of gravity (COG), and a low-level controller that tracks these desired trajectories using a set of closed-loop mechanisms. We conduct extensive experiments to verify that the controller is able to robustly cross a wide variety of challenging terrains, climbing over obstacles nearly as tall as the robot's legs. In addition, we highlight several elements of the controller that we found to be particularly crucial for robust locomotion, and which are applicable to quadruped robots in general. In such cases we conduct empirical evaluations to test the usefulness of these elements.
Author	Ng, A.Y. Rodgers, M.P. Kolter, J.Z.
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Snippet	Legged robots have the potential to navigate a much larger variety of terrain than their wheeled counterparts. In this paper we present a hierarchical control...
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StartPage	811
SubjectTerms	Computer architecture Control systems Gravity Leg Legged locomotion Mobile robots Navigation Robotics and automation Robust control Trajectory
Title	A control architecture for quadruped locomotion over rough terrain
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