Zichuan Lin scite author profile

Zichuan Lin

4Publications

67Citation Statements Received

57Citation Statements Given

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Affiliations

Tsinghua University, Microsoft Research (United Kingdom)

Publications

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Episodic Memory Deep Q-Networks

Lin

Yang

Zhang

2018

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Reinforcement learning (RL) algorithms have made huge progress in recent years by leveraging the power of deep neural networks (DNN). Despite the success, deep RL algorithms are known to be sample inefficient, often requiring many rounds of interaction with the environments to obtain satisfactory performance. Recently, episodic memory based RL has attracted attention due to its ability to latch on good actions quickly. In this paper, we present a simple yet effective biologically inspired RL algorithm called Episodic Memory Deep Q-Networks (EMDQN), which leverages episodic memory to supervise an agent during training. Experiments show that our proposed method can lead to better sample efficiency and is more likely to find good policies. It only requires 1/5 of the interactions of DQN to achieve many state-of-the-art performances on Atari games, significantly outperforming regular DQN and other episodic memory based RL algorithms.

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Episodic Memory Deep Q-Networks

Lin¹,

Yang²,

Zhang³

2018

Preprint

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JueWu-MC: Playing Minecraft with Sample-efficient Hierarchical Reinforcement Learning

Lin¹,

Li²,

Shi³

et al. 2021

Preprint

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Learning rational behaviors in open-world games like Minecraft remains to be challenging for Reinforcement Learning (RL) research due to the compound challenge of partial observability, highdimensional visual perception and delayed reward.To address this, we propose JueWu-MC, a sampleefficient hierarchical RL approach equipped with representation learning and imitation learning to deal with perception and exploration. Specifically, our approach includes two levels of hierarchy, where the high-level controller learns a policy to control over options and the low-level workers learn to solve each sub-task. To boost the learning of sub-tasks, we propose a combination of techniques including 1) action-aware representation learning which captures underlying relations between action and representation, 2) discriminator-based self-imitation learning for efficient exploration, and 3) ensemble behavior cloning with consistency filtering for policy robustness. Extensive experiments show that JueWu-MC significantly improves sample efficiency and outperforms a set of baselines by a large margin. Notably, we won the championship of the NeurIPS MineRL 2021 research competition and achieved the highest performance score ever.

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Object-Oriented Dynamics Learning through Multi-Level Abstraction

Zhu

Wang

Ren

et al. 2020

AAAI

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Object-based approaches for learning action-conditioned dynamics has demonstrated promise for generalization and interpretability. However, existing approaches suffer from structural limitations and optimization difficulties for common environments with multiple dynamic objects. In this paper, we present a novel self-supervised learning framework, called Multi-level Abstraction Object-oriented Predictor (MAOP), which employs a three-level learning architecture that enables efficient object-based dynamics learning from raw visual observations. We also design a spatial-temporal relational reasoning mechanism for MAOP to support instance-level dynamics learning and handle partial observability. Our results show that MAOP significantly outperforms previous methods in terms of sample efficiency and generalization over novel environments for learning environment models. We also demonstrate that learned dynamics models enable efficient planning in unseen environments, comparable to true environment models. In addition, MAOP learns semantically and visually interpretable disentangled representations.

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Zichuan Lin

Episodic Memory Deep Q-Networks

Episodic Memory Deep Q-Networks

JueWu-MC: Playing Minecraft with Sample-efficient Hierarchical Reinforcement Learning

Object-Oriented Dynamics Learning through Multi-Level Abstraction

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