English

Reducing Uncertainty by Fusing Dynamic Occupancy Grid Maps in a Cloud-based Collective Environment Model

Signal Processing 2020-05-06 v1 Multiagent Systems

Abstract

Accurate environment perception is essential for automated vehicles. Since occlusions and inaccuracies regularly occur, the exchange and combination of perception data of multiple vehicles seems promising. This paper describes a method to combine perception data of automated and connected vehicles in the form of evidential Dynamic Occupany Grid Maps (DOGMas) in a cloud-based system. This system is called the Collective Environment Model and is part of the cloud system developed in the project UNICARagil. The presented concept extends existing approaches that fuse evidential grid maps representing static environments of a single vehicle to evidential grid maps computed by multiple vehicles in dynamic environments. The developed fusion process additionally incorporates self-reported data provided by connected vehicles instead of only relying on perception data. We show that the uncertainty in a DOGMa described by Shannon entropy as well as the uncertainty described by a non-specificity measure can be reduced. This enables automated and connected vehicles to behave in ways not before possible due to unknown but relevant information about the environment.

Keywords

Cite

@article{arxiv.2005.02298,
  title  = {Reducing Uncertainty by Fusing Dynamic Occupancy Grid Maps in a Cloud-based Collective Environment Model},
  author = {Bastian Lampe and Raphael van Kempen and Timo Woopen and Alexandru Kampmann and Bassam Alrifaee and Lutz Eckstein},
  journal= {arXiv preprint arXiv:2005.02298},
  year   = {2020}
}

Comments

Accepted to be published in 2020 IEEE Intelligent Vehicles Symposium (IV), Las Vegas, NV, USA, October 20-23, 2020

R2 v1 2026-06-23T15:19:42.257Z