Robotics: Science and Systems XX
Stein Variational Ergodic Search
Darrick Lee, Cameron Lerch, Fabio Ramos, Ian AbrahamAbstract:
Exploration requires that robots reason about numerous ways to cover a space in response to dynamically changing conditions. However, in continuous domains there are potentially infinitely many options for robots to explore which can prove computationally challenging. How then should a robot efficiently optimize and choose exploration strategies to adopt? In this work, we explore this question through the use of variational inference to efficiently solve for distributions of coverage trajectories. Our approach leverages ergodic search methods to optimize coverage trajectories in continuous time and space. In order to reason about distributions of trajectories, we formulate ergodic search as a probabilistic inference problem. We propose to leverage Stein variational methods to approximate a posterior distribution over ergodic trajectories through parallel computation. As a result, it becomes possible to efficiently optimize distributions of feasible coverage trajectories for which robots can adapt exploration. We demonstrate that the proposed Stein variational ergodic search approach facilitates efficient identification of multiple coverage strategies and show online adaptation in a model-predictive control formulation. Simulated and physical experiments demonstrate adaptability and diversity in exploration strategies online.
Bibtex:
@INPROCEEDINGS{Lee-RSS-24, AUTHOR = {Darrick Lee AND Cameron Lerch AND Fabio Ramos AND Ian Abraham}, TITLE = {{Stein Variational Ergodic Search}}, BOOKTITLE = {Proceedings of Robotics: Science and Systems}, YEAR = {2024}, ADDRESS = {Delft, Netherlands}, MONTH = {July}, DOI = {10.15607/RSS.2024.XX.001} }