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21 September 2007 Monitoring of sensor covariance consistency
S. S. Krigman, M. L. Smith, B. E. Tipton
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Proceedings Volume 6699, Signal and Data Processing of Small Targets 2007; 66990D (2007) https://doi.org/10.1117/12.741507
Event: Optical Engineering + Applications, 2007, San Diego, California, United States
Abstract
This paper discusses the meaning of filter and covariance consistency and metrics for quantifying covariance consistency. Methodologies for testing and verifying (monitoring) covariance consistency will be explained and contrasted. Possible methodologies with simulated data sets representing hypothetical sensors tracking simulated targets will be demonstrated. One key methodology relies on statistical hypothesis testing of Mahalanobis distances computed for innovation vectors and state vectors. The focus will be on two important contributors to filter inconsistency: sensor bias and a "scaling factor," which can be an important source of inconsistency in a well-behaved unbiased filter. Using these simulated data sets the problems encountered with testing the innovation vectors in the presence of sensor biases will be demonstrated, underscoring the need to focus the tests for sensor biases on the state vectors instead. It will also be shown that tests of innovations can be reliable in determining the scaling factor. A way to remove bias effects in consistency tests applied to tracker state vectors will be demonstrated as well.
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S. S. Krigman, M. L. Smith, and B. E. Tipton "Monitoring of sensor covariance consistency", Proc. SPIE 6699, Signal and Data Processing of Small Targets 2007, 66990D (21 September 2007); https://doi.org/10.1117/12.741507
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KEYWORDS
Sensors
Mahalanobis distance
Error analysis
Matrices
Detection and tracking algorithms
Signal to noise ratio
Factor analysis
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