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ATAL
2015
Springer
2015
Springer
Monte Carlo Hierarchical Model Learning
Reinforcement learning (RL) is a well-established paradigm for enabling autonomous agents to learn from experience. To enable RL to scale to any but the smallest domains, it sary to make use of abstraction and generalization of the state-action space, for example with a factored representation. However, to make effective use of such a representation, it is necessary to determine which state variables are relevant in which situations. In this work, we introduce T-UCT, a novel model-based RL approach for learning and exploiting the dynamics of structured hierarchical environments. When learning the dynamics while acting, a partial or inaccurate model may do more harm than good. T-UCT uses graph-based planning and Monte Carlo simulations to exploit models that may be incomplete or inaccurate, allowing it to both maximize cumulative rewards and ignore trajectories that are unlikely to succeed. T-UCT incorporates new experiences in the form of more accurate plans that span a greater area ...
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| Added | 16 Apr 2016 |
| Updated | 16 Apr 2016 |
| Type | Journal |
| Year | 2015 |
| Where | ATAL |
| Authors | Jacob Menashe, Peter Stone |
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