Set-membership PHD filter

Author

Benavoli, Alessio ; Papi, Francesco

Author_Institution

Dalle Molle Inst. for Artificial Intell. (IDSIA), Manno, Switzerland

fYear

2013

fDate

9-12 July 2013

Firstpage

1722

Lastpage

1729

Abstract

The paper proposes a novel Probability Hypothesis Density (PHD) filter for linear system in which initial state, process and measurement noises are only known to be bounded (they can vary on compact sets, e.g., polytopes). This means that no probabilistic assumption is imposed on the distributions of initial state and noises besides the knowledge of their supports. These are the same assumptions that are used in set-membership estimation. By exploiting a formulation of set-membership estimation in terms of set of probability measures, we derive the equations of the set-membership PHD filter, which consist in propagating in time compact sets that include with guarantee the targets´ states. Numerical simulations show the effectiveness of the proposed approach and the comparison with a sequential Monte Carlo PHD filter which instead assumes that initial state and noises have uniform distributions.

Keywords

Monte Carlo methods; filtering theory; linear systems; numerical analysis; probability; set theory; initial state distributions; linear system; measurement noises; probability hypothesis density filter; probability measures; sequential Monte Carlo PHD filter; set-membership PHD filter; set-membership estimation; target states; time compact sets; Approximation methods; Clutter; Equations; Estimation; Noise; Noise measurement; Weight measurement; Probability Hypothesis Density filter; multi-target tracking; set-membership estimation;

fLanguage

English

Publisher

ieee

Conference_Titel

Information Fusion (FUSION), 2013 16th International Conference on

Conference_Location

Istanbul

Print_ISBN

978-605-86311-1-3

Type

conf

Filename

6641211