Nearly Linear-Phase 2-D Recursive Digital Filters Design Using Balanced Realization Model Reduction

Author:

Omar Abdussalam1,Shpak Dale12,Agathoklis Panajotis1

Affiliation:

1. Department of Electrical and Computer Engineering, University of Victoria, Victoria, BC V8P 5C2, Canada

2. Department of Computer Science, Camosun College, Victoria, BC V9E 2C1, Canada

Abstract

This paper presents a new method for the design of separable-denominator 2-D IIR filters with nearly linear phase in the passband. The design method is based on a balanced realization model reduction technique. The nearly linear-phase 2-D IIR filter is designed using 2-D model reduction from a linear-phase 2-D FIR filter, which serves as the initial filter. The structured controllability and observability Gramians Ps and Qs serve as the foundation for this technique. onal positive-definite matrices that satisfy 2-D Lyapunov equations. An efficient method is used to compute these Gramians by minimizing the traces of Ps and Qs under linear matrix inequality (LMI) constraints. The use of these Gramians ensures that the resulting 2-D IIR filter preserves stability and can be implemented using a separable-denominator 2-D filter with fewer coefficients than the original 2-D FIR filter. Numerical examples show that the proposed method compares favorably with existing techniques.

Funder

NSERC of Canada

Publisher

MDPI AG

Subject

General Medicine

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4. Wijesekara, R.T., Edussooriya, C.U., Bruton, L.T., and Agathoklis, P. (2017, January 13–15). A low-complexity 2-D spatially-interpolated FIR trapezoidal filter for enhancing broadband plane waves. Proceedings of the 2017 10th International Workshop on Multidimensional (nD) Systems (nDS), Zielona Góra, Poland.

5. Image denoising using 2-D FIR filters designed with DEPSO;Hua;Multimed. Tools Appl.,2014

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