Design of Digital IIR filters with the Advantages of Model Order Reduction Technique
In this paper, a new model order reduction
phenomenon is introduced at the design stage of linear phase digital
IIR filter. The complexity of a system can be reduced by adopting the
model order reduction method in their design. In this paper a mixed
method of model order reduction is proposed for linear IIR filter. The
proposed method employs the advantages of factor division technique
to derive the reduced order denominator polynomial and the reduced
order numerator is obtained based on the resultant denominator
polynomial. The order reduction technique is used to reduce the delay
units at the design stage of IIR filter. The validity of the proposed
method is illustrated with design example in frequency domain and
stability is also examined with help of nyquist plot.
[1] R. Prasad, J. Pal, and A. K. Pant, "Multivariable system approximation
using polynomial derivatives," Journal of the Institution of
Engineers, vol. 76, pp. 186-188, 1995.
[2] Y. Bistritz and U. Shaked, "Minimal Pade model reduction for
multivariable systems," Journal of Dynamic Systems, Measurement and
Control, vol. 106, no. 4, pp. 293-299, 1984.
[3] C. F. Chen, "Model reduction of multivariable control systems by means
of matrix continued fractions," International Journal of Control, vol. 20,
no. 2, pp. 225-238, 1974.
[4] M. R. Calfe and M. Healey, "Continued fraction model reduction
technique for multivariable systems," Proceedings of the Institution of
Electrical Engineers, vol. 121, no. 5, pp. 393- 395, 1974.
[5] R. Prasad, "Pade type model order reduction for multivariable systems
using routh approximation," Computers & Electrical Engineering, vol.
26, no. 6, pp. 445-459, 2000.
[6] R. Prasad, A. K. Mittal, and S. P. Sharma, "A mixed method for the
reduction of multi-variable systems," Journal of the Institution of
Engineers, vol. 85, pp. 177-181, 2005.
[7] L. Shieh and Y.Wei, "A mixed method for multivariable system
reduction," IEEE Transactions on Automatic Control, vol. 20, no. 3, pp.
429-432, 1975.
[8] Y Shamash," Model Reduction using the Routh Stability Criterion and
the Pade Approximation Technique", International Journal of Control,
vol 21, no 3, pp 475-484, 1975.
[9] T C Chen, C Y Chang, and K W Han, "Model Reduction using Stability
equation Method and the Pade Approximation Method", Journal of
Frankline Institute, vol 309, 1980, pp 473-490.
[10] T C Chen, C Y Chang, and K W Han, "Model Reduction using Stability
equation Method and Continued Fraction Method", International Journal
of Control, vol 32, no 1, 1980, pp 81-94.
[11] J Pal, A K Sinha, and N K Sinha, "Reduced-order Modeling using Pole
Clustering and Time-moment Matching", Journal of The Institution of
Engineers (India), Pt El, vol 76, 1995, pp 1-6.
[12] D K Gupta, S K Bhagat and J P Tewari, "A Mixed Method for the
Simplification of Linear Dynamic Systems," in Proceedings of
International Conference on Computer Applications in Electrical
Engineering Recent Advances, IIT, Roorkee, February 21-23, 2002, pp
455-459.
[13] S K Bhagat, J P Tewari and T Srinivasan, "Some Mixed Methods for the
Simplification of High-order Single-input Single-output Systems," IE (I)
Journal.EL, Vol 85, pp.120-123, Sep 2004.
[14] K.Ramesh, A.Nirmalkumar and G.Gurusamy, "Order reduction by error
minimization technique," Proceedings of International Conference on
Computing, Communication and Networking 2008, Dec 2008, pp 1-6.
[1] R. Prasad, J. Pal, and A. K. Pant, "Multivariable system approximation
using polynomial derivatives," Journal of the Institution of
Engineers, vol. 76, pp. 186-188, 1995.
[2] Y. Bistritz and U. Shaked, "Minimal Pade model reduction for
multivariable systems," Journal of Dynamic Systems, Measurement and
Control, vol. 106, no. 4, pp. 293-299, 1984.
[3] C. F. Chen, "Model reduction of multivariable control systems by means
of matrix continued fractions," International Journal of Control, vol. 20,
no. 2, pp. 225-238, 1974.
[4] M. R. Calfe and M. Healey, "Continued fraction model reduction
technique for multivariable systems," Proceedings of the Institution of
Electrical Engineers, vol. 121, no. 5, pp. 393- 395, 1974.
[5] R. Prasad, "Pade type model order reduction for multivariable systems
using routh approximation," Computers & Electrical Engineering, vol.
26, no. 6, pp. 445-459, 2000.
[6] R. Prasad, A. K. Mittal, and S. P. Sharma, "A mixed method for the
reduction of multi-variable systems," Journal of the Institution of
Engineers, vol. 85, pp. 177-181, 2005.
[7] L. Shieh and Y.Wei, "A mixed method for multivariable system
reduction," IEEE Transactions on Automatic Control, vol. 20, no. 3, pp.
429-432, 1975.
[8] Y Shamash," Model Reduction using the Routh Stability Criterion and
the Pade Approximation Technique", International Journal of Control,
vol 21, no 3, pp 475-484, 1975.
[9] T C Chen, C Y Chang, and K W Han, "Model Reduction using Stability
equation Method and the Pade Approximation Method", Journal of
Frankline Institute, vol 309, 1980, pp 473-490.
[10] T C Chen, C Y Chang, and K W Han, "Model Reduction using Stability
equation Method and Continued Fraction Method", International Journal
of Control, vol 32, no 1, 1980, pp 81-94.
[11] J Pal, A K Sinha, and N K Sinha, "Reduced-order Modeling using Pole
Clustering and Time-moment Matching", Journal of The Institution of
Engineers (India), Pt El, vol 76, 1995, pp 1-6.
[12] D K Gupta, S K Bhagat and J P Tewari, "A Mixed Method for the
Simplification of Linear Dynamic Systems," in Proceedings of
International Conference on Computer Applications in Electrical
Engineering Recent Advances, IIT, Roorkee, February 21-23, 2002, pp
455-459.
[13] S K Bhagat, J P Tewari and T Srinivasan, "Some Mixed Methods for the
Simplification of High-order Single-input Single-output Systems," IE (I)
Journal.EL, Vol 85, pp.120-123, Sep 2004.
[14] K.Ramesh, A.Nirmalkumar and G.Gurusamy, "Order reduction by error
minimization technique," Proceedings of International Conference on
Computing, Communication and Networking 2008, Dec 2008, pp 1-6.
@article{"International Journal of Electrical, Electronic and Communication Sciences:63414", author = "K.Ramesh and A.Nirmalkumar and G.Gurusamy", title = "Design of Digital IIR filters with the Advantages of Model Order Reduction Technique", abstract = "In this paper, a new model order reduction
phenomenon is introduced at the design stage of linear phase digital
IIR filter. The complexity of a system can be reduced by adopting the
model order reduction method in their design. In this paper a mixed
method of model order reduction is proposed for linear IIR filter. The
proposed method employs the advantages of factor division technique
to derive the reduced order denominator polynomial and the reduced
order numerator is obtained based on the resultant denominator
polynomial. The order reduction technique is used to reduce the delay
units at the design stage of IIR filter. The validity of the proposed
method is illustrated with design example in frequency domain and
stability is also examined with help of nyquist plot.", keywords = "Error index (J), Factor division method, IIR filter,Nyquist plot, Order reduction.", volume = "3", number = "4", pages = "1027-6", }
