Multi-Task Deep Reinforcement Learning for Continuous Action Control

Zhaoyang Yang, Kathryn E. Merrick, Hussein A. Abbass, Lianwen Jin

2017 (modified: 10 Nov 2022)IJCAI 2017Readers: Everyone

Abstract: In this paper, we propose a deep reinforcement learning algorithm to learn multiple tasks concurrently. A new network architecture is proposed in the algorithm which reduces the number of parameters needed by more than 75% per task compared to typical single-task deep reinforcement learning algorithms. The proposed algorithm and network fuse images with sensor data and were tested with up to 12 movement-based control tasks on a simulated Pioneer 3AT robot equipped with a camera and range sensors. Results show that the proposed algorithm and network can learn skills that are as good as the skills learned by a comparable single-task learning algorithm. Results also show that learning performance is consistent even when the number of tasks and the number of constraints on the tasks increased.

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