Adaptive Sensor Placement for Continuous Spaces

James Grant, Alexis Boukouvalas, Ryan-Rhys Griffiths, David Leslie, Sattar Vakili, Enrique Munoz De Cote

ICML 2019 pp. 2385-2393

/icml/2019/grant2019icml-adaptive/

Abstract

We consider the problem of adaptively placing sensors along an interval to detect stochastically-generated events. We present a new formulation of the problem as a continuum-armed bandit problem with feedback in the form of partial observations of realisations of an inhomogeneous Poisson process. We design a solution method by combining Thompson sampling with nonparametric inference via increasingly granular Bayesian histograms and derive an $\tilde{O}(T^{2/3})$ bound on the Bayesian regret in $T$ rounds. This is coupled with the design of an efficent optimisation approach to select actions in polynomial time. In simulations we demonstrate our approach to have substantially lower and less variable regret than competitor algorithms.

PDF ICML Semantic Scholar

Cite

Text

Grant et al. "Adaptive Sensor Placement for Continuous Spaces." International Conference on Machine Learning, 2019.

Markdown

[Grant et al. "Adaptive Sensor Placement for Continuous Spaces." International Conference on Machine Learning, 2019.](https://mlanthology.org/icml/2019/grant2019icml-adaptive/)

BibTeX

@inproceedings{grant2019icml-adaptive,
  title     = {{Adaptive Sensor Placement for Continuous Spaces}},
  author    = {Grant, James and Boukouvalas, Alexis and Griffiths, Ryan-Rhys and Leslie, David and Vakili, Sattar and De Cote, Enrique Munoz},
  booktitle = {International Conference on Machine Learning},
  year      = {2019},
  pages     = {2385-2393},
  volume    = {97},
  url       = {https://mlanthology.org/icml/2019/grant2019icml-adaptive/}
}