Add to ORKGThe purpose of this paper is to present an adaptive algorithm to find the best approximation in the least square sense of a given signal. The proposed method takes advantage of the fact that the least square approximation of a given signal over a chosen domain D can be directly obtained from the corresponding optimal least square approximations of this signal over any set of domains that constitute a partition of D. The approximation characteristics and a parameter that takes into account of the relative position and geometry of these domains are sufficient to provide the overall best approximation over D. This property is shown to be independent of the basis functions used in the approximation. It is also shown how the total least square e...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An approximation algorithm for two-dimensional (2-D) signals, e.g. images, is presented. This approx...
This paper presents an approximation algorithm for two-dimensional signals (e.g., images) using poly...
AbstractA fast algorithm has been developed for solving a class of least squares problems arising in...
Adaptive Least Squares Matching (ALSM) is a powerful technique for precisely locating objects in dig...
Adaptive Least Squares Matching (ALSM) is a powerful technique for precisely locating objects in dig...
The purpose of this paper is to present an adaptive split procedure for decomposing an image into a ...
In this paper we propose a very simple FIR pre-filter based method for near optimal least-squares li...
Approximation of digital signals by means of continuous-time functions is often required in many tas...
We present a new approach to the approximation of the input-output map of a nonlinear system which t...
Abstract — Locally optimal Delaunay triangulations are constructed to improve previous image approxi...
This textbook offers an accessible introduction to the theory and numerics of approximation methods,...
This paper presents a universal approximation of the unit circle by a polygon that can be used in si...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An approximation algorithm for two-dimensional (2-D) signals, e.g. images, is presented. This approx...
This paper presents an approximation algorithm for two-dimensional signals (e.g., images) using poly...
AbstractA fast algorithm has been developed for solving a class of least squares problems arising in...
Adaptive Least Squares Matching (ALSM) is a powerful technique for precisely locating objects in dig...
Adaptive Least Squares Matching (ALSM) is a powerful technique for precisely locating objects in dig...
The purpose of this paper is to present an adaptive split procedure for decomposing an image into a ...
In this paper we propose a very simple FIR pre-filter based method for near optimal least-squares li...
Approximation of digital signals by means of continuous-time functions is often required in many tas...
We present a new approach to the approximation of the input-output map of a nonlinear system which t...
Abstract — Locally optimal Delaunay triangulations are constructed to improve previous image approxi...
This textbook offers an accessible introduction to the theory and numerics of approximation methods,...
This paper presents a universal approximation of the unit circle by a polygon that can be used in si...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...
An optimal procedure for segmenting one-dimensional signals whose parameters are unknown and change ...