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An Efficient Labeled/Unlabeled Random Finite Set Algorithm for Multiobject Tracking

Signal Processing 2022-04-20 v2

Abstract

We propose an efficient random finite set (RFS) based algorithm for multiobject tracking in which the object states are modeled by a combination of a labeled multi-Bernoulli (LMB) RFS and a Poisson RFS. The less computationally demanding Poisson part of the algorithm is used to track potential objects whose existence is unlikely. Only if a quantity characterizing the plausibility of object existence is above a threshold, a new labeled Bernoulli component is created and the object is tracked by the more accurate but more computationally demanding LMB part of the algorithm. Conversely, a labeled Bernoulli component is transferred back to the Poisson RFS if the corresponding existence probability falls below another threshold. Contrary to existing hybrid algorithms based on multi-Bernoulli and Poisson RFSs, the proposed method facilitates track continuity and implements complexity-reducing features. Simulation results demonstrate a large complexity reduction relative to other RFS-based algorithms with comparable performance.

Keywords

Cite

@article{arxiv.2109.05337,
  title  = {An Efficient Labeled/Unlabeled Random Finite Set Algorithm for Multiobject Tracking},
  author = {Thomas Kropfreiter and Florian Meyer and Franz Hlawatsch},
  journal= {arXiv preprint arXiv:2109.05337},
  year   = {2022}
}

Comments

18 pages

R2 v1 2026-06-24T05:53:05.031Z