Visual Semantic Navigation using Scene Priors
This work addresses the challenge of efficient object search in novel environments for AI agents, representing an incremental advance in navigation methods.
The paper tackles the problem of visual semantic navigation by incorporating semantic priors into a deep reinforcement learning framework, resulting in significant performance improvements and better generalization to unseen scenes and objects.
How do humans navigate to target objects in novel scenes? Do we use the semantic/functional priors we have built over years to efficiently search and navigate? For example, to search for mugs, we search cabinets near the coffee machine and for fruits we try the fridge. In this work, we focus on incorporating semantic priors in the task of semantic navigation. We propose to use Graph Convolutional Networks for incorporating the prior knowledge into a deep reinforcement learning framework. The agent uses the features from the knowledge graph to predict the actions. For evaluation, we use the AI2-THOR framework. Our experiments show how semantic knowledge improves performance significantly. More importantly, we show improvement in generalization to unseen scenes and/or objects. The supplementary video can be accessed at the following link: https://youtu.be/otKjuO805dE .