Paper ID: 2404.02113
K-percent Evaluation for Lifelong RL
Golnaz Mesbahi, Parham Mohammad Panahi, Olya Mastikhina, Martha White, Adam White
In continual or lifelong reinforcement learning, access to the environment should be limited. If we aspire to design algorithms that can run for long periods, continually adapting to new, unexpected situations, then we must be willing to deploy our agents without tuning their hyperparameters over the agent's entire lifetime. The standard practice in deep RL, and even continual RL, is to assume unfettered access to the deployment environment for the full lifetime of the agent. In this paper, we propose a new approach for evaluating lifelong RL agents where only k percent of the experiment data can be used for hyperparameter tuning. We then conduct an empirical study of DQN and SAC across a variety of continuing and non-stationary domains. We find agents generally perform poorly when restricted to k-percent tuning, whereas several algorithmic mitigations designed to maintain network plasticity perform surprisingly well.
Submitted: Apr 2, 2024