Width-Based Lookaheads with Learnt Base Policies and Heuristics over the Atari-2600 Benchmark
Abstract
We propose new width-based planning and learning algorithms inspired from a careful analysis of the design decisions made by previous width-based planners. The algorithms are applied over the Atari-2600 games and our best performing algorithm, Novelty guided Critical Path Learning (N-CPL), outperforms the previously introduced width-based planning and learning algorithms $\pi$-IW(1), $\pi$-IW(1)+ and $\pi$-HIW(n, 1). Furthermore, we present a taxonomy of the Atari-2600 games according to some of their defining characteristics. This analysis of the games provides further insight into the behaviour and performance of the algorithms introduced. Namely, for games with large branching factors, and games with sparse meaningful rewards, N-CPL outperforms $\pi$-IW, $\pi$-IW(1)+ and $\pi$-HIW(n, 1).
Cite
Text
O'Toole et al. "Width-Based Lookaheads with Learnt Base Policies and Heuristics over the Atari-2600 Benchmark." Neural Information Processing Systems, 2021.Markdown
[O'Toole et al. "Width-Based Lookaheads with Learnt Base Policies and Heuristics over the Atari-2600 Benchmark." Neural Information Processing Systems, 2021.](https://mlanthology.org/neurips/2021/otoole2021neurips-widthbased/)BibTeX
@inproceedings{otoole2021neurips-widthbased,
title = {{Width-Based Lookaheads with Learnt Base Policies and Heuristics over the Atari-2600 Benchmark}},
author = {O'Toole, Stefan and Lipovetzky, Nir and Ramirez, Miquel and Pearce, Adrian},
booktitle = {Neural Information Processing Systems},
year = {2021},
url = {https://mlanthology.org/neurips/2021/otoole2021neurips-widthbased/}
}