Diversity-Driven Exploration Strategy for Deep Reinforcement Learning

February 13, 2018 · Declared Dead · 🏛 Neural Information Processing Systems

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Authors Zhang-Wei Hong, Tzu-Yun Shann, Shih-Yang Su, Yi-Hsiang Chang, Chun-Yi Lee arXiv ID 1802.04564 Category cs.AI: Artificial Intelligence Cross-listed stat.ML Citations 139 Venue Neural Information Processing Systems Last Checked 3 months ago

Abstract

Efficient exploration remains a challenging research problem in reinforcement learning, especially when an environment contains large state spaces, deceptive local optima, or sparse rewards. To tackle this problem, we present a diversity-driven approach for exploration, which can be easily combined with both off- and on-policy reinforcement learning algorithms. We show that by simply adding a distance measure to the loss function, the proposed methodology significantly enhances an agent's exploratory behaviors, and thus preventing the policy from being trapped in local optima. We further propose an adaptive scaling method for stabilizing the learning process. Our experimental results in Atari 2600 show that our method outperforms baseline approaches in several tasks in terms of mean scores and exploration efficiency.

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