Dynamic Learning Rate for Deep Reinforcement Learning: A Bandit Approach
Keywords: Hyperparameter Optimization, Meta Learning, Deep Reinforcement Learning, Adversarial Multi-Armed Bandits
TL;DR: We propose a meta-learning method that dynamically selects the learning rate (step-size) in stochastic gradient descent (SGD) for deep RL using a multi-armed bandit framework.
Abstract: In Deep Reinforcement Learning models trained using gradient-based techniques, the choice of optimizer and its learning rate are crucial to achieving good performance: higher learning rates can prevent the model from learning effectively, while lower ones might slow convergence. Additionally, due to the non-stationarity of the objective function, the best-performing learning rate can change over the training steps. To adapt the learning rate, a standard technique consists of using decay schedulers. However, these schedulers assume that the model is progressively approaching convergence, which may not always be true, leading to delayed or premature adjustments. In this work, we propose dynamic Learning Rate for deep Reinforcement Learning (LRRL), a meta-learning approach that selects the learning rate based on the agent's performance during training. LRRL is based on a multi-armed bandit algorithm, where each arm represents a different learning rate, and the bandit feedback is provided by the cumulative returns of the RL policy to update the arms' probability distribution. Our empirical results demonstrate that LRRL can substantially improve the performance of deep RL algorithms.
Primary Area: transfer learning, meta learning, and lifelong learning
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Submission Number: 3068
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