The vast majority of literature published on target tracking ignores the effects of atmospheric refraction. When refraction is considered, the solutions are generally tailored to a simple exponential atmospheric refraction model. This paper discusses how arbitrary refraction models can be incorporated into tracking algorithms. Attention is paid to multistatic tracking problems, where uncorrected refractive effects can worsen track accuracy and consistency in centralized tracking algorithms, and can lead to difficulties in track-to-track association in distributed tracking filters. Monostatic and bistatic track initialization using refraction-corrupted measurements is discussed. The results are demonstrated using an exponential refractive model, though an arbitrary refraction profile can be substituted.
How to incorporate generic refraction models into multistatic tracking algorithms
2013-03-01
527053 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Multistatic Bayesian extended target tracking
IEEE | 2016
|Distributed tracking in multistatic sonar
IEEE | 2005
|CORRESPONDENCE - Distributed Tracking in Multistatic Sonar
Online Contents | 2005
|Multistatic Target and Sensor Field Tracking
IEEE | 2007
|