A fast algorithm for designing stack filters

A fast algorithm for designing stack filters

Stack filters are a class of nonlinear filters with excellent properties for signal restoration. Unfortunately, present algorithms for designing stack filters can only be used for small window sizes because of either their computational overhead or their serial nature. This paper presents a new adap...

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Bibliographic Details
Published in:IEEE transactions on image processing Vol. 8; no. 8; pp. 1014 - 1028
Main Authors: Jisang Yoo, Fong, K.L., Jr-Jen Huang, Coyle, E.J., Adams, G.B.
Format: Journal Article
Language:English
Published: New York, NY IEEE 1999
Institute of Electrical and Electronics Engineers
Subjects:
Adaptive algorithms
Adaptive filters
Algorithm design and analysis
Algorithms
Applied sciences
Cascades
Exact sciences and technology
Filtering
Filtering algorithms
Image edge detection
Image processing
Information, signal and communications theory
Iterative algorithms
Iterative methods
Kelvin
Nonlinear filters
Optimization
Restoration
Signal processing
Stacking
Stacks
Telecommunications and information theory
Training data
Stack filter
Image processing
Non linear filter
Adaptive filtering
Image restoration
Fast algorithm
Median filter
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Summary:Stack filters are a class of nonlinear filters with excellent properties for signal restoration. Unfortunately, present algorithms for designing stack filters can only be used for small window sizes because of either their computational overhead or their serial nature. This paper presents a new adaptive algorithm for determining a stack filter that minimizes the mean absolute error criterion. The new algorithm retains the iterative nature of many current adaptive stack filtering algorithms, but significantly reduces the number of iterations required to converge to an optimal filter. This algorithm is faster than all currently available stack filter design algorithms, is simple to implement, and is shown in this paper to always converge to an optimal stack filter. Extensive comparisons between this new algorithm and all existing algorithms are provided. The comparisons are based both on the performance of the resulting filters and upon the time and space complexity of the algorithms. They demonstrate that the new algorithm has three advantages: it is faster than all other available algorithms; it can be used on standard workstations (SPARC 5 with 48 MB) to design filters with windows containing 20 or more points; and, its highly parallel structure allows very fast implementations on parallel machines. This new algorithm allows cascades of stack filters to be designed; stack filters with windows containing 72 points have been designed in a matter of minutes under this new approach.
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ISSN:1057-7149
1941-0042
DOI:10.1109/83.777083