Terrain Classification for a Quadruped Robot

2013 12th International Conference on Machine Learning and Applications Pub Date : 2013-12-04 DOI:10.1109/ICMLA.2013.39
Jonas Degrave, Robin Van Cauwenbergh, F. Wyffels, Tim Waegeman, B. Schrauwen
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引用次数: 17

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.
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四足机器人地形分类
使用从苏黎世大学(UZH)的Puppy II机器人检索到的数据,我们证明了具有非线性和衰落记忆的机器学习技术对于地形分类是有效的,无论是有监督的还是无监督的,即使输入传感器的选择有限。结果表明,触觉传感器和本体感觉关节角度传感器结合使用可以获得最多的地形分类信息。分类误差小到足以让机器人根据地形调整步态,从而更加稳健地移动。
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2013 12th International Conference on Machine Learning and Applications
2013 12th International Conference on Machine Learning and Applications
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