Is Exploration or Optimization the Problem for Deep Reinforcement Learning?

Abstract

In the era of deep reinforcement learning, making progress is more complex, as the collected experience must be compressed into a deep model for future exploitation and sampling. Many papers have shown that training a deep learning policy under the changing state and action distribution leads to sub-optimal performance, or even collapse. This naturally leads to the concern that even if the community creates improved exploration algorithms or reward objectives, will those improvements fall on the deaf ears of optimization difficulties. This work proposes a new practical sub-optimality estimator to determine optimization limitations of deep reinforcement learning algorithms. Through experiments across environments and RL algorithms, it is shown that the difference between the best experience generated is 2-3× better than the policies' learned performance. This large difference indicates that deep RL methods only exploit half of the good experience they generate.