Naslov (srp)

Sinteza i realizacija uskopojasnih rekurzivnih digitalnih filtara nepropusnika opsega

Autor

Krstić, Ivan B.

Doprinosi

Nikolić, Saša V. 1967-
Stančić, Goran
Milovanović, Gradimir
Nikolić, Tatjana
Lekić, Predrag

Opis (eng)

New IIR multiple-notch filters design methods, whose utilization lead to complete satisfaction of specifications regarding positions of notch frequencies and notch-bandwidths defined for an arbitrary attenuation value at cutoff frequencies, are investigated in this thesis. Most of the proposed design methods offer the possibility of further pass-bands magnitude response improvement by increasing the order of the filter. On the other hand, since proposed design methods are based on the assumption that IIR multiple-notch filter with desired magnitude response can be obtained by parallel connection of the delay line and the stable allpass filter, pass-bands magnitude response improvement is followed by the improvement of linearity of the pass-bands phase response. Comparison with the existing IIR multiple-notch filter design methods showed that proposed design methods could result in shorter duration of transient response to sum of sinusoidal interferences, as well as in improvement of pass-bands phase response. Sensitivity of the IIR multiple-notch filter’s magnitude response to coefficient quantization is considered from the point of view of the right choice of existing (standard) and development of the new realization structures. Algorithm for determination of the multipliers coefficients’ quantized values such that needed number of bits for theirs representation is minimized, as well as the algorithm for determination of the optimal representations of the all-pass filter transfer function (characterizing the IIR multiplenotch filter), realized by cascade connection of the first- and second-order nonstandard all-pass sections, are proposed. Efficiency of the proposed algorithms is verified through several examples. General conclusion is that significant reduction in total number of bits needed for representation of multipliers coefficients can be achieved if nonstandard realization structures are used.

Opis (srp)

Biografija autora: list 119;Bibliografija: listovi 99-118. Datum odbrane: 22.03.2019. Digital signal processing

Jezik

srpski

Datum

2018

Licenca

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Creative Commons CC BY-NC-ND 2.0 AT - Creative Commons Autorstvo - Nekomercijalno - Bez prerada 2.0 Austria License.

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