Keywords: Degenerate parabolic problem; entropy solution; existence; semi-discretization; Rothe's method; weighted Sobolev space
@article{COMIM_2020_28_1_a5,
author = {Sabri, Abdelali and Jamea, Ahmed and Alaoui, Hamad Talibi},
title = {Existence of entropy solutions to nonlinear degenerate parabolic problems with variable exponent and $L^1$-data},
journal = {Communications in Mathematics},
pages = {67--88},
year = {2020},
volume = {28},
number = {1},
mrnumber = {4124291},
zbl = {1468.35087},
language = {en},
url = {http://geodesic.mathdoc.fr/item/COMIM_2020_28_1_a5/}
}
TY - JOUR AU - Sabri, Abdelali AU - Jamea, Ahmed AU - Alaoui, Hamad Talibi TI - Existence of entropy solutions to nonlinear degenerate parabolic problems with variable exponent and $L^1$-data JO - Communications in Mathematics PY - 2020 SP - 67 EP - 88 VL - 28 IS - 1 UR - http://geodesic.mathdoc.fr/item/COMIM_2020_28_1_a5/ LA - en ID - COMIM_2020_28_1_a5 ER -
%0 Journal Article %A Sabri, Abdelali %A Jamea, Ahmed %A Alaoui, Hamad Talibi %T Existence of entropy solutions to nonlinear degenerate parabolic problems with variable exponent and $L^1$-data %J Communications in Mathematics %D 2020 %P 67-88 %V 28 %N 1 %U http://geodesic.mathdoc.fr/item/COMIM_2020_28_1_a5/ %G en %F COMIM_2020_28_1_a5
Sabri, Abdelali; Jamea, Ahmed; Alaoui, Hamad Talibi. Existence of entropy solutions to nonlinear degenerate parabolic problems with variable exponent and $L^1$-data. Communications in Mathematics, Tome 28 (2020) no. 1, pp. 67-88. http://geodesic.mathdoc.fr/item/COMIM_2020_28_1_a5/
[1] Abassi, A., Hachimi, A. El, Jamea, A.: Entropy solutions to nonlinear Neumann problems with $L^1$-data. Int. J. Math. Statist, 2, 2008, 4-17, | MR
[2] Akdim, Y., Chakir, A., Elgorch, N., Mekkour, M.: Entropy Solutions of Nonlinear $p(x)$-Parabolic Inequalities. Nonlinear Dyn. Syst. Theory, 18, 2, 2018, 107-129, | MR
[3] Alaoui, M.K., Meskine, D., Souissi, A.: On some class of nonlinear parabolic inequalities in Orlicz spaces. Nonlinear Analysis: Theory, Methods & Applications, 74, 17, 2011, 5863-5875, Elsevier, | DOI | MR
[4] Azroul, E., Barbara, A., Benboubker, M.B., Haiti, K. El: Existence of entropy solutions for degenerate elliptic unilateral problems with variable exponents. Boletim da Sociedade Paranaense de Matem{á}tica, 36, 1, 2018, 79-99, | MR
[5] Azroul, E., Redwane, H., Rhoudaf, M.: Existence of a renormalized solution for a class of nonlinear parabolic equations in Orlicz spaces. Portugaliae Mathematica, 66, 1, 2009, 29-63, | DOI | MR
[6] Bénilan, Ph., Boccardo, L., Gallouët, T., Gariepy, R., Pierre, M., Vázquez, J.L.: An $L^1$-theory of existence and uniqueness of solutions of nonlinear elliptic equations. Annali della Scuola Normale Superiore di Pisa-Classe di Scienze, 22, 2, 1995, 241-273, | MR
[7] Chen, Y., Levine, S., Rao, M.: Variable exponent, linear growth functionals in image restoration. SIAM journal on Applied Mathematics, 66, 4, 2006, 1383-1406, SIAM, | DOI | MR | Zbl
[8] Eden, A., Michaux, B., Rakotoson, J.M.: Semi-discretized nonlinear evolution equations as discrete dynamical systems and error analysis. Indiana University mathematics journal, 1990, 737-783, JSTOR, | DOI | MR
[9] Hachimi, A. El, Jamea, A.: Nonlinear parabolic problems with Neumann-type boundary conditions and $L^{1}$-data. Electronic Journal of Qualitative Theory of Differential Equations, 2007, 27, 2007, 1-22, University of Szeged, Hungary, | MR
[10] Fan, X., Zhao, D.: On the spaces $L^{p(x)}(\Omega )$ and $W^{m,p(x)}(\Omega )$. Journal of Mathematical Analysis and Applications, 263, 2, 2001, 424-446, Elsevier,
[11] Ho, K., Sim, I.: Existence and some properties of solutions for degenerate elliptic equations with exponent variable. Nonlinear Analysis: Theory, Methods & Applications, 98, 2014, 146-164, Elsevier, | DOI | MR
[12] Hästö, P.: The $p(x)$-Laplacian and applications. J. Anal, 15, 2007, 53-62, Citeseer, | MR
[13] Jamea, A.: Weak solutions to nonlinear parabolic problems with variable exponent. International Journal of Mathematical Analysis, 10, 12, 2016, 553-564, | DOI
[14] Jamea, A., Lamrani, A.A., Hachimi, A. El: Existence of entropy solutions to nonlinear parabolic problems with variable exponent and $ L^1$-data. Ricerche di Matematica, 67, 2, 2018, 785-801, Springer, | DOI | MR
[15] Kim, Y.H., Wang, L., Zhang, C.: Global bifurcation for a class of degenerate elliptic equations with variable exponents. Journal of Mathematical Analysis and Applications, 371, 2, 2010, 624-637, Elsevier, | DOI | MR
[16] Ouaro, S., Ouedraogo, A.: Nonlinear parabolic problems with variable exponent and $L^{1}$-data. Electronic Journal of Differential Equations, 2017, 32, 2017, 1-32, | MR
[17] Růžička, M.: Electrorheological Fluids: Modelling and Mathematical Theory, Lecture Notes in Math. 1748. 2000, Springer, Berlin, | DOI | MR
[18] Sanchón, M., Urbano, J.M.: Entropy solutions for the $p(x)$-Laplace equation. Transactions of the American Mathematical Society, 361, 12, 2009, 6387-6405, | DOI | MR
[19] Zhang, C.: Entropy solutions for nonlinear elliptic equations with variable exponents. Electronic Journal of Differential Equations, 2014, 92, 2014, 1-14, | MR
[20] Zhang, C., Zhou, S.: Renormalized and entropy solutions for nonlinear parabolic equations with variable exponents and $L^{1}$ data. Journal of Differential Equations, 248, 6, 2010, 1376-1400, Elsevier, | DOI | MR