ViTac: Feature Sharing between Vision and Tactile Sensing for Cloth Texture Recognition
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Vision and touch are two of the important sensing modalities for humans and they offer complementary information for sensing the environment. Robots are also envisioned to be of such multi-modal sensing ability. In this paper, we propose a new fusion method named Deep Maximum Covariance Analysis (DMCA) to learn a joint latent space for sharing features through vision and tactile sensing. The features of camera images and tactile data acquired from a GelSight sensor are learned by deep neural networks. But the learned features are of a high dimensionality and are redundant due to the differences in the two sensing modalities, which deteriorates the perception performance. To solve this, the learned features are paired using maximum covariance analysis. Results of the algorithm on a newly collected dataset of paired visual and tactile data relating to cloth textures show that a good recognition performance of greater than 90 framework. In addition, we find that the perception performance of either vision or tactile sensing can be improved by employing the shared representation space, compared to learning from unimodal data.
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