VANP: Learning Where to See for Navigation with Self-Supervised Vision-Action Pre-Training
- URL: http://arxiv.org/abs/2403.08109v3
- Date: Wed, 4 Sep 2024 20:54:13 GMT
- Title: VANP: Learning Where to See for Navigation with Self-Supervised Vision-Action Pre-Training
- Authors: Mohammad Nazeri, Junzhe Wang, Amirreza Payandeh, Xuesu Xiao,
- Abstract summary: Humans excel at efficiently navigating through crowds without collision by focusing on specific visual regions relevant to navigation.
Most robotic visual navigation methods rely on deep learning models pre-trained on vision tasks, which prioritize salient objects.
We propose a Self-Supervised Vision-Action Model for Visual Navigation Pre-Training (VANP)
- Score: 8.479135285935113
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Humans excel at efficiently navigating through crowds without collision by focusing on specific visual regions relevant to navigation. However, most robotic visual navigation methods rely on deep learning models pre-trained on vision tasks, which prioritize salient objects -- not necessarily relevant to navigation and potentially misleading. Alternative approaches train specialized navigation models from scratch, requiring significant computation. On the other hand, self-supervised learning has revolutionized computer vision and natural language processing, but its application to robotic navigation remains underexplored due to the difficulty of defining effective self-supervision signals. Motivated by these observations, in this work, we propose a Self-Supervised Vision-Action Model for Visual Navigation Pre-Training (VANP). Instead of detecting salient objects that are beneficial for tasks such as classification or detection, VANP learns to focus only on specific visual regions that are relevant to the navigation task. To achieve this, VANP uses a history of visual observations, future actions, and a goal image for self-supervision, and embeds them using two small Transformer Encoders. Then, VANP maximizes the information between the embeddings by using a mutual information maximization objective function. We demonstrate that most VANP-extracted features match with human navigation intuition. VANP achieves comparable performance as models learned end-to-end with half the training time and models trained on a large-scale, fully supervised dataset, i.e., ImageNet, with only 0.08% data.
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