In this study, a novel analytical method for new class of linear-phase two-dimensional (2D) finite impulse response (FIR) filter functions with full effect of Hilbert transformer in z ₁ and z ₂ domains generated by applying a new modified 2D Christoffel–Darboux formula for classical orthogonal Chebyshev polynomials of the first and the second kind is proposed. Fundamental research proposed in this study is also illustrated by examples of 2D FIR filter, Hilbert transformer and adequate comparison with new class of multiplierless linear-phase 2D FIR filter function given in the literature. For all 2D FIR filter functions, comparisons are made for the same values of free real parameters, and they show the improvement of the spike sharpness.

References

1. 1)
  - 7. Jovanovic-Dolecek, G., Dolecek, L.: ‘Novel multiplierless wide-band CIC compensator’. Proc. IEEE Int. Symp. Circuits and Systems, Paris, France, 2010, pp. 2119–2122.
2. 2)
  - 13. Pavlović, V.D., Dončov, N.S.: ‘Explicit form of three novel classes of multiplierless linear phase selective 2D FIR filter function’, in Barringer, J.P. (Ed.): ‘Telecommunications: Applications, Modern Technologies and Economic Impact’ (Nova Science Publishers, NY, USA, 2014), pp. 117–188.
3. 3)
  - 7. Jovanovic-Dolecek, G., Dolecek, L.: ‘Novel multiplierless wide-band CIC compensator’. Proc. IEEE Int. Symp. Circuits and Systems, Paris, France, 2010, pp. 2119–2122.
4. 4)
  - 5. Proakis, J.G., Manolakis, D.G.: ‘Digital signal processing – principles, algorithms, and applications’ (Prentice-Hall Int., New Jersey, 1996).
5. 5)
  - 17. Pei, S.-C., Shyu, J.-J.: ‘2-D FIR eigenfilters: a least-squares approach’, IEEE Trans. Circuits Syst., 1990, 37, (1), pp. 24–34 (doi: 10.1109/31.45688).
6. 6)
  - 18. Hazra, S.N., Reddy, M.S.: ‘Design of circularly symmetric low-pass two-dimensional FIR digital filters using transformation’, IEEE Trans. Circuits Syst., 1986, 33, (10), pp. 1022–1026 (doi: 10.1109/TCS.1986.1085838).
7. 7)
  - 24. Spencer, M., Chen, F., Wang, C.C., et al: ‘Demonstration of integrated micro-electro-mechanical relay circuits for VLSI applications’, IEEE J. Solid-State Circuits, 2011, 46, (1), pp. 308–320 (doi: 10.1109/JSSC.2010.2074370).
8. 8)
  - 9. Perić, S.Lj., Antić, D.S., Pavlović, V.D., Nikolić, S.S., Milojković, M.T.: ‘Ultra-selective lowpass linear-phase FIR filter function’, Electron. Lett., 2013, 43, (9), pp. 595–597 (doi: 10.1049/el.2012.4475).
9. 9)
  - 10. Pavlović, V.D., Antić, D.S., Nikolić, S.S., Perić, S.Lj.: ‘Low complexity lowpass linear-phase multiplierless FIR filter’, Electron. Lett., 2013, 49, (18), pp. 1133–1135 (doi: 10.1049/el.2013.1791).
10. 10)
  - 15. Djordjevic-Kozarov, J.R., Pavlovic, V.D.: ‘An analytical method for the multiplierless 2D FIR filter functions and Hilbert transform in z2 domain’, IEEE Trans. Circuits Syst. II, Express Briefs, 2013, 60, (8), pp. 527–531 (doi: 10.1109/TCSII.2013.2268340).
11. 11)
  - 34. Anvari Moghaddam, A., Seifi, A.R.: ‘Study of forecasting renewable energies in smart grids using linear predictive filters and neural networks’, IET Renew. Power Gener., 2011, 5, (2), pp. 470–480 (doi: 10.1049/iet-rpg.2010.0104).
12. 12)
  - 19. Klouche-Djedid, A., Lawson, S.S.: ‘Simple design and realisation of linear-phase 2D FIR filters with diamond frequency support’, Electron. Lett., 1999, 35, (14), pp. 1148–1150 (doi: 10.1049/el:19990787).
13. 13)
  - 11. Pavlović, V.D., Antić, D.S., Perić, S.Lj., Nikolić, S.S., Milojković, M.T.: ‘Transitional selective linear phase 1D FIR filter function generated by Christoffel–Darboux formula for Chebyshev polynomials’, Electron. Electr. Eng., 2014, 20, (4), pp. 3–10.
14. 14)
  - 14. Pavlović, V.D., Doncov, N., Ćirić, D.G.: ‘1D and 2D Economical FIR filters generated by Chebyshev polynomials of the first kind’, Int. J. Electron., 2013, 100, (11), pp. 1592–1619 (doi: 10.1080/00207217.2013.764549).
15. 15)
  - 8. Fernandez-Vazquez, A., Jovanovic-Dolecek, G.: ‘Maximally flat CIC compensation filter: design and multiplierless implementation’, IEEE Trans. Circuits Syst. II, Express Briefs, 2012, 59, (2), pp. 113–117 (doi: 10.1109/TCSII.2011.2180093).
16. 16)
  - 4. Mitra, S.K.: ‘Digital signal processing’ (The McGraw–Hill Companies, NY, 1998).
17. 17)
  - 2. Pavlović, V.D.: ‘New class of filter functions generated directly by the modified Christoffel–Darboux formula for classical orthonormal Jacobi polynomials’, Int. J. Circuit Theory Appl., 2013, 41, (10), pp. 1059–1073 (doi: 10.1002/cta.1817).
18. 18)
  - 1. Szegö, G.: ‘Orthogonal polynomials’ (American Mathematical Society, Colloquium Publications, NY, 1967, 3rd edn.).
19. 19)
  - 22. Rabiner, L.R., McClellan, J.H., Parks, T.W.: ‘FIR digital filter techniques using weighted Chebyshev approximation’, Proc. IEEE, 1975, 63, (4), pp. 595–610 (doi: 10.1109/PROC.1975.9794).
20. 20)
  - 21. Narayana Murthy, V.L., Makur, A.: ‘Design of some 2-D filters through the transformation technique’, IEE Proc., Vis. Image Signal Process., 1996, 143, (3), pp. 184–190 (doi: 10.1049/ip-vis:19960515).
21. 21)
  - 6. Roy, S.C.D.: ‘Impulse response of sincN FIR filters’, IEEE Trans. Circuits Syst., 2006, 53, (3), pp. 217–219 (doi: 10.1109/TCSII.2005.858319).
22. 22)
  - 16. Ćirić, D.G., Pavlović, V.D.: ‘Linear phase two-dimensional FIR digital filter functions generated by applying Christoffel–Darboux formula for orthonormal polynomials’, Elektron. Elektrotech., 2012, 4, pp. 39–42.
23. 23)
  - 20. Vijayakumar, N., Prabhu, K.M.M.: ‘2D FIR compaction filter design’, IEE Proc., Vis. Image Signal Process., 2001, 148, (3), pp. 173–181 (doi: 10.1049/ip-vis:20010186).
24. 24)
  - 3. Pavlović, V.D., Ilić, A.D.: ‘New class of filter functions generated most directly by Christoffel–Darboux formula for classical orthonormal Jacobi polynomials’, Int. J. Electron., 2011, 98, (12), pp. 1603–1624 (doi: 10.1080/00207217.2011.601467).
25. 25)
  - 12. Coleman, J.O.: ‘Chebyshev stopbands for CIC decimation filters and CIC-implemented array tapers in 1D and 2D’, IEEE Trans. Circuits Syst. I, Regul. Pap., 2012, 59, (12), pp. 2956–2968 (doi: 10.1109/TCSI.2012.2206435).

Ultra-selective spike multiplierless linear-phase two-dimensional FIR filter function with full Hilbert transform effect

References

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