基于联合核稀疏编码的触觉序列分类

Jingwei Yang, Huaping Liu, F. Sun, Meng Gao
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引用次数: 16

摘要

机器人指尖的触觉传感器用于捕捉物体的纹理、粗糙度、空间特征、顺应性或摩擦力等多种属性,因此成为智能机器人非常重要的感知方式。然而,现有的工作忽略了同时接触物体的不同手指之间的内在联系。针对多指触觉序列分类问题,提出了一种联合核稀疏编码模型。该模型采用联合稀疏编码,明确考虑了手指间的内在关系,使不同模态编码共享相同的支持度。实验结果表明,联合稀疏编码比常规稀疏编码具有更好的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tactile sequence classification using joint kernel sparse coding
Tactile sensors in the robotic fingertips are used to capture multiple object properties such as texture, roughness, spatial features, compliance or friction and therefore becomes a very important sense modality for intelligent robot. However, existing work neglects the intrinsic relation between different fingers which simultaneously contact the object. In this paper, a joint kernel sparse coding model is developed to tackle the multi-finger tactile sequence classification problem. In this model, the intrinsic relations between fingers are explicitly considered using the joint sparse coding which encourages different modal coding to share the same support. The experimental results show that the joint sparse coding achieves better performance than conventional sparse coding.
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