Auxiliary Tasks and Exploration Enable ObjectNav
This work addresses the challenge of enabling generic learned agents for embodied navigation tasks, representing an incremental improvement with specific gains in performance.
The paper tackles the problem of poor performance in ObjectGoal Navigation due to overfitting and sample inefficiency in end-to-end agents, achieving a 37% relative improvement in success rate and 8% in SPL over prior state-of-the-art on the Habitat ObjectNav Challenge.
ObjectGoal Navigation (ObjectNav) is an embodied task wherein agents are to navigate to an object instance in an unseen environment. Prior works have shown that end-to-end ObjectNav agents that use vanilla visual and recurrent modules, e.g. a CNN+RNN, perform poorly due to overfitting and sample inefficiency. This has motivated current state-of-the-art methods to mix analytic and learned components and operate on explicit spatial maps of the environment. We instead re-enable a generic learned agent by adding auxiliary learning tasks and an exploration reward. Our agents achieve 24.5% success and 8.1% SPL, a 37% and 8% relative improvement over prior state-of-the-art, respectively, on the Habitat ObjectNav Challenge. From our analysis, we propose that agents will act to simplify their visual inputs so as to smooth their RNN dynamics, and that auxiliary tasks reduce overfitting by minimizing effective RNN dimensionality; i.e. a performant ObjectNav agent that must maintain coherent plans over long horizons does so by learning smooth, low-dimensional recurrent dynamics. Site: https://joel99.github.io/objectnav/