Multidimensional Digital Smoothing Filters for Target Detection
Computer Vision and Pattern Recognition
2015-04-02 v5
Abstract
Recursive, causal and non-causal, multidimensional digital filters, with infinite impulse responses and maximally flat magnitude and delay responses in the low-frequency region, are designed to negate correlated clutter and interference in the background and to accumulate power due to dim targets in the foreground of a surveillance sensor. Expressions relating mean impulse-response duration, frequency selectivity and group delay, to low-order linear-difference-equation coefficients are derived using discrete Laguerre polynomials and discounted least-squares regression, then verified through simulation.
Cite
@article{arxiv.1410.0582,
title = {Multidimensional Digital Smoothing Filters for Target Detection},
author = {Hugh L. Kennedy},
journal= {arXiv preprint arXiv:1410.0582},
year = {2015}
}
Comments
With galley proof fixes