13,276 research outputs found
Bayesian Reinforcement Learning via Deep, Sparse Sampling
We address the problem of Bayesian reinforcement learning using efficient
model-based online planning. We propose an optimism-free Bayes-adaptive
algorithm to induce deeper and sparser exploration with a theoretical bound on
its performance relative to the Bayes optimal policy, with a lower
computational complexity. The main novelty is the use of a candidate policy
generator, to generate long-term options in the planning tree (over beliefs),
which allows us to create much sparser and deeper trees. Experimental results
on different environments show that in comparison to the state-of-the-art, our
algorithm is both computationally more efficient, and obtains significantly
higher reward in discrete environments.Comment: Published in AISTATS 202
Anytime Hierarchical Clustering
We propose a new anytime hierarchical clustering method that iteratively
transforms an arbitrary initial hierarchy on the configuration of measurements
along a sequence of trees we prove for a fixed data set must terminate in a
chain of nested partitions that satisfies a natural homogeneity requirement.
Each recursive step re-edits the tree so as to improve a local measure of
cluster homogeneity that is compatible with a number of commonly used (e.g.,
single, average, complete) linkage functions. As an alternative to the standard
batch algorithms, we present numerical evidence to suggest that appropriate
adaptations of this method can yield decentralized, scalable algorithms
suitable for distributed/parallel computation of clustering hierarchies and
online tracking of clustering trees applicable to large, dynamically changing
databases and anomaly detection.Comment: 13 pages, 6 figures, 5 tables, in preparation for submission to a
conferenc
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