@Article{AAM-32-221, author = {Boulfoul , Amel and Makhlouf , Amar}, title = {Limit Cycles of the Generalized Polynomial Liénard Differential Systems}, journal = {Annals of Applied Mathematics}, year = {2022}, volume = {32}, number = {3}, pages = {221--233}, abstract = {
Using the averaging theory of first and second order we study the maximum number of limit cycles of generalized Liénard differential systems $$\begin{cases} \dot{x}= y + ϵh^1_l (x) + ϵ^2h^2_l (x), \\ \dot{y}= −x − ϵ(f^1_n (x)y^{2p+1}+ g^1_m(x)) + ϵ^2 (f^2_n(x)y^{2p+1}+ g^2_m(x)), \end{cases}$$ which bifurcate from the periodic orbits of the linear center $\dot{x} = y,$ $\dot{y}= −x,$ where $ϵ$ is a small parameter. The polynomials $h^1_l$ and $h^2_l$ have degree $l;$ $f^1_n$ and $f^2_n$ have degree $n;$ and $g^1_m,$ $g^2_m$ have degree $m.$ $p ∈ \mathbb{N}$ and [·] denotes the integer part function.
}, issn = {}, doi = {https://doi.org/}, url = {http://global-sci.org/intro/article_detail/aam/20639.html} }