Facta Univ. Ser.: Elec. Energ., vol. 26, No. 2, August 2013, pp. 133-143
DOI: 10.2298/FUEE1302133P

SHAPE OF IMPULSE RESPONSE CHARACTERISTICS OF LINEAR-PHASE NONRECURSIVE 2D FIR FILTER FUNCTION

Vlastimir D. Pavlović, Dejan N. Milić, Jelena R. Djordjević-Kozarov

Abstract: An analytical method for the new class of linear-phase multiplierless 2D FIR filter functions generated by applying the Christoffel-Darboux formula for classical Chebyshev polynomials of the first and the second kind, proposed in [6] was used for designing of linear-phase multiplierless 2D FIR filter described in this paper. Correct transformation from continuous two-dimensional domain into the z domains without residuum and without errors is described. The proposed solution high selectivity is a filter function in the z1 domain, and the Hilbert transformer in the z2 domain. The impulse response coefficients of proposed 2D FIR filter functions are presented in this paper, and corresponding examples of impulse response are illustrated. The paper also presents detailed analysis of the size of pass-band and stop-band of proposed multiplierless linear-phase 2D FIR filter function. Normalized surface area of the filter function pass-band is 3.45789156 10-5 for given maximal attenuation of 0.28 dB. Normalized surface area of the filter function stop-band is 80.395% for the given minimal attenuation of 100 dB.

Key words: 2D FIR filter function, Multiplierless, Linear-phase, Impulse response characteristics, Coefficients of impulse response characteristic, Frequency response analysis, Diamond sharpness

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