Hierarchical Expert Networks for Meta-Learning
Abstract
The goal of meta-learning is to train a model on a variety of learning tasks, such that it can adapt to new problems within only a few iterations. Here we propose a principled information-theoretic model that optimally partitions the underlying problem space such that the resulting partitions are processed by specialized expert decision-makers. To drive this specialization we impose the same kind of information processing constraints both on the partitioning and the expert decision-makers. We argue that this specialization leads to efficient adaptation to new tasks. To demonstrate the generality of our approach we evaluate three meta-learning domains: image classification, regression, and reinforcement learning.
Cite
Text
Hihn and Braun. "Hierarchical Expert Networks for Meta-Learning." ICML 2020 Workshops: LifelongML, 2020.Markdown
[Hihn and Braun. "Hierarchical Expert Networks for Meta-Learning." ICML 2020 Workshops: LifelongML, 2020.](https://mlanthology.org/icmlw/2020/hihn2020icmlw-hierarchical/)BibTeX
@inproceedings{hihn2020icmlw-hierarchical,
title = {{Hierarchical Expert Networks for Meta-Learning}},
author = {Hihn, Heinke and Braun, Daniel A.},
booktitle = {ICML 2020 Workshops: LifelongML},
year = {2020},
url = {https://mlanthology.org/icmlw/2020/hihn2020icmlw-hierarchical/}
}