FIR数字滤波器零极点灵敏度分析及优化实现

doi:10.11959/j.issn.1000-436x.2018167

Abstract

Abstract:

Aiming at the deviation of pole and zero in filters which caused by the finite word length (FWL) effects,the sensitivity of pole and zero for FIR digital filters to coefficient errors was studied based on the state-space model.Unlike the IIR filter,the system matrix in state-space model of the FIR filter was defective.A set of generalized eigenvectors of defective matrix was introduced to analyze the pole sensitivity and derive the measure expression,and optimal realizations with respect to pole-zero sensitivity for FIR filters were proposed by finding optimal transformation matrices according to the similarity transformation theory.Theoretical analysis and simulation experiments show that the poles of a FIR filter are more sensitive to coefficient errors,and the proposed optimal realizations can reduce the sensitivity.

Key words: FIR digital filter, state-space realization, pole and zero sensitivity, defective matrix, generalized eigenvector

CLC Number:

TN713.7

Ling ZHUANG,Jingyi MA,Guangyu WANG,Juan GUAN. Analysis and optimal realization of pole-zero sensitivity for FIR digital filters[J]. Journal on Communications, 2018, 39(9): 168-177.

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References 15

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n	h(n)	n	h(n)
0，23	0.003 886 540 766 173	6，17	0.024 155 455 156 495
1，22	0.004 051 536 123 612	7，16	-0.033 160 245 757 261
2，21	-0.006 243 654 757 511	8，15	-0.075 495 155 852 443
3，20	-0.014 735 821 120 988	9，14	0.000 000 000 000 000
4，19	0.000 000 000 000 000	10，13	0.196 560 231 116 696
5，18	0.028 607 770 998 730	11，12	0.372 373 343 326 496

状态空间实现	R	R_p(T_p )	R_z(T_z )	R_pz (T_pz )
极点灵敏度ψ_p	1.420 9×10⁶	23	6.918 6×10⁶	2.5336×10³
零点灵敏度ψ_z	6.363 2×10⁵	1.169 5×10¹⁰	2.921 1×10⁴	3.389 6×10⁴

序号	精确解	近似解
1，2	-0.693 1 ± 0.097 4i	-0.683 7 ± 0.094 0i
3，4	-0.640 6 ± 0.276 3i	-0.633 0 ± 0.274 9i
5，6	-0.546 3 ± 0.443 2i	-0.535 3 ± 0.435 5i
7，8	-0.408 1 ± 0.586 7i	-0.398 0 ± 0.563 8i
9，10	-0.211 5 ± 0.674 3i	-0.231 1 ± 0.650 2i
11，12	-0.023 0 ± 0.694 5i	-0.046 5 ± 0.679 9i
13，14	0.171 6 ± 0.661 7i	0.140 4 ± 0.675 7i
15，16	0.321 0 ± 0.577 3i	0.317 5 ± 0.612 7i
17，18	0.449 8 ± 0.488 7i	0.471 0 ± 0.504 3i
19，20	0.574 1 ± 0.356 6i	0.589 6 ± 0.358 6i
21，22	0.654 7 ± 0.201 6i	0.664 5 ± 0.186 2i
23	0.702 4+0.000 0i	0.690 1+0.000 0i

Analysis and optimal realization of pole-zero sensitivity for FIR digital filters

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