Design of separable-denominator 2-D digital filters using the reduced-dimensional decomposition model

Tian Bo Deng; Masayuki Kawamata

doi:10.1007/BF01941020

Design of separable-denominator 2-D digital filters using the reduced-dimensional decomposition model

Tian Bo Deng, Masayuki Kawamata

ENG - Electronic Engineering

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

A separable-denominator 2-D digital filter (SD-2DDF) can be decomposed into the cascade form of a pair of 1-D digital filters (1DDFs) with different delay elements. Based on this reduced-dimensional decomposition, in this paper, we propose a new technique for designing SD-2DDFs in the spatial domain. The technique determines the coefficient matrices of 1DDFs by nonlinear optimization techniques first, and then a SD-2DDF can be easily synthesized. In addition, since the existent 1-D linear system realization techniques can be used to choose a good starting point for the optimization, extremely accurate design results can be easily achieved.

Original language	English
Pages (from-to)	89-96
Number of pages	8
Journal	Multidimensional Systems and Signal Processing
Volume	3
Issue number	1
DOIs	https://doi.org/10.1007/BF01941020
Publication status	Published - 1992 Feb 1

Keywords

1-D Lyapunov stability condition
1-D digital filter (1DDF)
Separable-denominator 2-D digital filter (SD-2DDF)
reduced-dimensional decomposition

ASJC Scopus subject areas

Software
Signal Processing
Information Systems
Hardware and Architecture
Computer Science Applications
Artificial Intelligence
Applied Mathematics

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10.1007/BF01941020

Cite this

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abstract = "A separable-denominator 2-D digital filter (SD-2DDF) can be decomposed into the cascade form of a pair of 1-D digital filters (1DDFs) with different delay elements. Based on this reduced-dimensional decomposition, in this paper, we propose a new technique for designing SD-2DDFs in the spatial domain. The technique determines the coefficient matrices of 1DDFs by nonlinear optimization techniques first, and then a SD-2DDF can be easily synthesized. In addition, since the existent 1-D linear system realization techniques can be used to choose a good starting point for the optimization, extremely accurate design results can be easily achieved.",

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T1 - Design of separable-denominator 2-D digital filters using the reduced-dimensional decomposition model

AU - Deng, Tian Bo

AU - Kawamata, Masayuki

PY - 1992/2/1

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N2 - A separable-denominator 2-D digital filter (SD-2DDF) can be decomposed into the cascade form of a pair of 1-D digital filters (1DDFs) with different delay elements. Based on this reduced-dimensional decomposition, in this paper, we propose a new technique for designing SD-2DDFs in the spatial domain. The technique determines the coefficient matrices of 1DDFs by nonlinear optimization techniques first, and then a SD-2DDF can be easily synthesized. In addition, since the existent 1-D linear system realization techniques can be used to choose a good starting point for the optimization, extremely accurate design results can be easily achieved.

AB - A separable-denominator 2-D digital filter (SD-2DDF) can be decomposed into the cascade form of a pair of 1-D digital filters (1DDFs) with different delay elements. Based on this reduced-dimensional decomposition, in this paper, we propose a new technique for designing SD-2DDFs in the spatial domain. The technique determines the coefficient matrices of 1DDFs by nonlinear optimization techniques first, and then a SD-2DDF can be easily synthesized. In addition, since the existent 1-D linear system realization techniques can be used to choose a good starting point for the optimization, extremely accurate design results can be easily achieved.

KW - 1-D Lyapunov stability condition

KW - 1-D digital filter (1DDF)

KW - Separable-denominator 2-D digital filter (SD-2DDF)

KW - reduced-dimensional decomposition

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Design of separable-denominator 2-D digital filters using the reduced-dimensional decomposition model

Abstract

Keywords

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