Title :
Mathematical programming algorithms for regression-based nonlinear filtering in RN
Author :
Sidiropoulos, Nicholas D. ; Bro, Rasmus
Author_Institution :
Dept. of Electr. Eng., Virginia Univ., Charlottesville, VA, USA
fDate :
3/1/1999 12:00:00 AM
Abstract :
This paper is concerned with regression under a “sum” of partial order constraints. Examples include locally monotonic, piecewise monotonic, runlength constrained, and unimodal and oligomodal regression. These are of interest not only in nonlinear filtering but also in density estimation and chromatographic analysis. It is shown that under a least absolute error criterion, these problems can be transformed into appropriate finite problems, which can then be efficiently solved via dynamic programming techniques. Although the result does not carry over to least squares regression, hybrid programming algorithms can be developed to solve least squares counterparts of certain problems in the class
Keywords :
dynamic programming; nonlinear filters; nonparametric statistics; statistical analysis; chromatographic analysis; density estimation; dynamic programming; finite problems; hybrid programming algorithms; least absolute error criterion; least squares counterparts; locally monotonic regression; mathematical programming algorithms; oligomodal regression; partial order constraints sum; piecewise monotonic regression; regression-based nonlinear filtering; runlength constrained regression; unimodal regression; Dynamic programming; Euclidean distance; Filtering algorithms; Laplace equations; Least squares methods; Magnetic separation; Mathematical programming; Maximum likelihood estimation; Measurement errors; Skeleton;
Journal_Title :
Signal Processing, IEEE Transactions on
