Learning Reward Functions from Scale Feedback
Abstract
Today’s robots are increasingly interacting with people and need to efficiently learn inexperienced user’s preferences. A common framework is to iteratively query the user about which of two presented robot trajectories they prefer. While this minimizes the users effort, a strict choice does not yield any information on how much one trajectory is preferred. We propose scale feedback, where the user utilizes a slider to give more nuanced information. We introduce a probabilistic model on how users would provide feedback and derive a learning framework for the robot. We demonstrate the performance benefit of slider feedback in simulations, and validate our approach in two user studies suggesting that scale feedback enables more effective learning in practice.
Cite
Text
Wilde et al. "Learning Reward Functions from Scale Feedback." Conference on Robot Learning, 2021.Markdown
[Wilde et al. "Learning Reward Functions from Scale Feedback." Conference on Robot Learning, 2021.](https://mlanthology.org/corl/2021/wilde2021corl-learning/)BibTeX
@inproceedings{wilde2021corl-learning,
title = {{Learning Reward Functions from Scale Feedback}},
author = {Wilde, Nils and Biyik, Erdem and Sadigh, Dorsa and Smith, Stephen L.},
booktitle = {Conference on Robot Learning},
year = {2021},
pages = {353-362},
volume = {164},
url = {https://mlanthology.org/corl/2021/wilde2021corl-learning/}
}