Paper Info
Title
Design, Simulation, and Testing of Laika, a Quadruped Robot with a Flexible Actuated Spine.
Abstract
Walking quadruped robots face challenges in positioning their feet and lifting their legs during gait cycles over uneven terrain. Laika is a quadruped robot with a flexible, actuated spine designed to assist with foot movement and balance during these gaits. This paper presents the first set of hardware designs for Laika, a physical prototype of those designs, and tests in both hardware and simulations that show the prototypeu0027s capabilities. Laikau0027s spine is a tensegrity structure, used for its advantages with weight and force distribution, and represents the first working prototype of a tensegrity spine in a quadruped robot. The spine bends by adjusting the lengths of the cables that separate its vertebrae, and twists using an actuated rotating vertebra at its center. Laikau0027s current prototype has stiff legs, with only the spine in motion. This work shows the advantages of Laikau0027s spine by demonstrating the spine lifting each of the robotu0027s four feet, using specific combinations of bending and rotation movements. For each of the four lifting motions, data on foot positions are collected from both simulations and hardware experiments on the prototype. Simulation data on foot height lie within or close to the range of hardware experiment results, depending on direction of spine twist. Future work will combine actuated legs with Laikau0027s spine, and compare the performance of a walking quadruped with and without the spine.
Year
Venue
Field
2018
arXiv: Robotics
Stiff legs,Gait,Simulation,Bending,Tensegrity,Engineering,Robot
DocType
Volume
Citations 
Journal
abs/1804.06527
0
PageRank 
References 
Authors
0.34
12
9
Name
Order
Citations
PageRank
Andrew P. Sabelhaus102.37
Lara Janse van Vuuren200.34
Ankita Joshi3301.54
Edward Zhu401.69
Hunter J. Garnier500.34
Kimberly A. Sover600.34
Jesús Navarro741.45
Adrian K. Agogino8122.99
Alice M. Agogino928881.04