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A Behavioral Approach to Visual Navigation with Graph Localization Networks

Kevin Chen, Juan Pablo de Vicente, Gabriel Ocampo Sepúlveda, Fei Xia, Álvaro Soto, Marynel Vázquez, Silvio Savarese

Year
2019
Citations
20
Access
Open access

Abstract

Inspired by research in psychology, we introduce a behavioral approach for visual navigation using topological maps. Our goal is to enable a robot to navigate from one location to another, relying only on its visual input and the topological map of the environment. We propose using graph neural networks for localizing the agent in the map, and decompose the action space into primitive behaviors implemented as convolutional or recurrent neural networks. Using the Gibson simulator, we verify that our approach outperforms relevant baselines and is able to navigate in both seen and unseen environments.

Keywords

Computer scienceGraphArtificial intelligenceConvolutional neural networkRobotTopological mapAction (physics)Space (punctuation)Recurrent neural networkArtificial neural network

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