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The aim of this paper is to determine analytically the resonance limits for second kind commensurate fractional systems in terms of the pseudo damping factor document document and the commensurate order document v document and in addition specify the different resonance regions. In the literature, these limits and regions have never been discussed mathematically, they are determined numerically. Second kind commensurate fractional systems are resonant if the equation: document ^3v+3 cos (v /2) ^2v+ (2^2+cos (v) ) ᵛ+ cos (v/2) = 0 document, obtained by setting the first derivative of the amplitude-frequency response equal to zero, has at last one strictly positive root. As in the conventional case, resonance limits correspond to zero discriminant of the last equation. This discriminant is a cubic equation in document ² document whose coefficients change depending on document v document. To resolve this equation, the tangent trigonometric solving method is used and the relationship between document document and document v document is established, which represents the resonance limits expression. To search resonance regions, a mathematical study is conducted on the first equation to find the positive roots number for each (document v document, document document) combination. Compared to works already achieved, a new region appeared in the region of single resonant frequency with an anti-resonant one. The results are tested through numerical examples and applied to a fractional filter.
Boubidi et al. (Fri,) studied this question.