Leveraging Demonstrations with Latent Space Priors
This work addresses the problem of slow and inefficient reinforcement learning for researchers and practitioners, offering an incremental improvement by integrating latent space priors from demonstrations.
The paper tackles the problem of improving reinforcement learning efficiency by using demonstration datasets to accelerate policy learning, achieving significant gains in learning speed and final performance on challenging sparse-reward environments and offline RL benchmarks.
Demonstrations provide insight into relevant state or action space regions, bearing great potential to boost the efficiency and practicality of reinforcement learning agents. In this work, we propose to leverage demonstration datasets by combining skill learning and sequence modeling. Starting with a learned joint latent space, we separately train a generative model of demonstration sequences and an accompanying low-level policy. The sequence model forms a latent space prior over plausible demonstration behaviors to accelerate learning of high-level policies. We show how to acquire such priors from state-only motion capture demonstrations and explore several methods for integrating them into policy learning on transfer tasks. Our experimental results confirm that latent space priors provide significant gains in learning speed and final performance. We benchmark our approach on a set of challenging sparse-reward environments with a complex, simulated humanoid, and on offline RL benchmarks for navigation and object manipulation. Videos, source code and pre-trained models are available at the corresponding project website at https://facebookresearch.github.io/latent-space-priors .