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Terrain Classification for a Quadruped Robot

Jonas Degrave, Robin Cauwenbergh, Francis wyffels, Tim Waegeman, Benjamin Schrauwen

Year
2013
Citations
19

Abstract

Using data retrieved from the Puppy II robot at the University of Zurich (UZH), we show that machine learning techniques with non-linearities and fading memory are effective for terrain classification, both supervised and unsupervised, even with a limited selection of input sensors. The results indicate that most information for terrain classification is found in the combination of tactile sensors and proprioceptive joint angle sensors. The classification error is small enough to have a robot adapt the gait to the terrain and hence move more robustly.

Keywords

TerrainRobotArtificial intelligenceComputer scienceMobile robotComputer visionPuppyGaitSupport vector machineGeography

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