A Survey of Meta-Reinforcement Learning
While deep reinforcement learning (RL) has fueled multiple high-profile successes in machine learning, it is held back from more widespread adoption by its often poor data efficiency and the limited generality of the policies it produces. A promising approach for alleviating these limitations is to...
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| creator | Beck, Jacob Vuorio, Risto Liu, Evan Zheran Xiong, Zheng Zintgraf, Luisa Finn, Chelsea Whiteson, Shimon |
| description | While deep reinforcement learning (RL) has fueled multiple high-profile
successes in machine learning, it is held back from more widespread adoption by
its often poor data efficiency and the limited generality of the policies it
produces. A promising approach for alleviating these limitations is to cast the
development of better RL algorithms as a machine learning problem itself in a
process called meta-RL. Meta-RL is most commonly studied in a problem setting
where, given a distribution of tasks, the goal is to learn a policy that is
capable of adapting to any new task from the task distribution with as little
data as possible. In this survey, we describe the meta-RL problem setting in
detail as well as its major variations. We discuss how, at a high level,
meta-RL research can be clustered based on the presence of a task distribution
and the learning budget available for each individual task. Using these
clusters, we then survey meta-RL algorithms and applications. We conclude by
presenting the open problems on the path to making meta-RL part of the standard
toolbox for a deep RL practitioner. |
| doi_str_mv | 10.48550/arxiv.2301.08028 |
| format | Article |
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successes in machine learning, it is held back from more widespread adoption by
its often poor data efficiency and the limited generality of the policies it
produces. A promising approach for alleviating these limitations is to cast the
development of better RL algorithms as a machine learning problem itself in a
process called meta-RL. Meta-RL is most commonly studied in a problem setting
where, given a distribution of tasks, the goal is to learn a policy that is
capable of adapting to any new task from the task distribution with as little
data as possible. In this survey, we describe the meta-RL problem setting in
detail as well as its major variations. We discuss how, at a high level,
meta-RL research can be clustered based on the presence of a task distribution
and the learning budget available for each individual task. Using these
clusters, we then survey meta-RL algorithms and applications. We conclude by
presenting the open problems on the path to making meta-RL part of the standard
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successes in machine learning, it is held back from more widespread adoption by
its often poor data efficiency and the limited generality of the policies it
produces. A promising approach for alleviating these limitations is to cast the
development of better RL algorithms as a machine learning problem itself in a
process called meta-RL. Meta-RL is most commonly studied in a problem setting
where, given a distribution of tasks, the goal is to learn a policy that is
capable of adapting to any new task from the task distribution with as little
data as possible. In this survey, we describe the meta-RL problem setting in
detail as well as its major variations. We discuss how, at a high level,
meta-RL research can be clustered based on the presence of a task distribution
and the learning budget available for each individual task. Using these
clusters, we then survey meta-RL algorithms and applications. We conclude by
presenting the open problems on the path to making meta-RL part of the standard
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successes in machine learning, it is held back from more widespread adoption by
its often poor data efficiency and the limited generality of the policies it
produces. A promising approach for alleviating these limitations is to cast the
development of better RL algorithms as a machine learning problem itself in a
process called meta-RL. Meta-RL is most commonly studied in a problem setting
where, given a distribution of tasks, the goal is to learn a policy that is
capable of adapting to any new task from the task distribution with as little
data as possible. In this survey, we describe the meta-RL problem setting in
detail as well as its major variations. We discuss how, at a high level,
meta-RL research can be clustered based on the presence of a task distribution
and the learning budget available for each individual task. Using these
clusters, we then survey meta-RL algorithms and applications. We conclude by
presenting the open problems on the path to making meta-RL part of the standard
toolbox for a deep RL practitioner.</abstract><doi>10.48550/arxiv.2301.08028</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Learning |
| title | A Survey of Meta-Reinforcement Learning |
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