Some qualitative properties of mild solutions of a second-order integro-differential inclusion

Aurelian Cernea

doi:10.31197/atnaa.612236

Araştırma Makalesi

Some qualitative properties of mild solutions of a second-order integro-differential inclusion

Yıl 2019, Cilt: 3 Sayı: 3, 141 - 149, 31.08.2019

Aurelian Cernea

https://doi.org/10.31197/atnaa.612236

Öz

We prove the Lipschitz dependence on the initial data of the solution set of a Cauchy problem associated to a second-order integro-differential inclusion by using the contraction

principle in the space of selections of the multifunction instead of the space of solutions. A Filippov type existence theorem for this problem is also provided.

Anahtar Kelimeler

differential inclusion, contraction principle, fixed point

Kaynakça

1. A. Baliki, M. Benchohra, J.R. Graef, Global existence and stability of second order functional evolutionequations with infinite delay, Electronic J. Qual. Theory Differ. Equations, 2016, no. 23, (2016), 1-10.
2. A. Baliki, M. Benchohra, J.J. Nieto, Qualitative analysis of second-order functional evolution equations,Dynamic Syst. Appl., 24 (2015), 559-572.
3. M. Benchohra, I. Medjadj, Global existence results for second order neutral functional differential equationswith state-dependent delay, Comment. Math. Univ. Carolin. 57 (2016), 169-183.
4. C. Castaing, M. Valadier, Convex Analysis and Measurable Multifunctions, Springer, Berlin, 1977.
5. A. Cernea, Lipschitz-continuity of the solution map of some nonconvex evolution inclusions, Anal. Univ. Bucuresti,Mat., 57 (2008), 189-198.
6. A. Cernea, On the existence of mild solutions of a nonconvex evolution inclusion, Math. Commun., 13 (2008),107-114.
7. A. Cernea, Some remarks on the solutions of a second-order evolution inclusion, Dynamic Syst. Appl., 27 (2018), 319-330.
8. H. Covitz, S. B. Nadler jr., Multivalued contraction mapping in generalized metric spaces, Israel J. Math., 8 (1970), 5-11.
9. N. Dunford, B.J. Pettis, Linear operators and summable functions, Trans. Amer. Math. Soc., 47 (1940), 323-392.
10. A.F. Filippov, Classical solutions of differential equations with multivalued right-hand side, SIAM J. Control Optim., 5 (1967), 609-621.
11. H.R. Henriquez, Existence of solutions of nonautonomous second order functional differential equations with infinite delay, Nonlinear Anal., 74 (2011), 3333-3352.
12. H.R. Henriquez, V. Poblete, J.C. Pozo, Mild solutions of non-autonomous second order problems with nonlocal initial conditions, J. Math. Anal. Appl., 412 (2014), 1064-1083.
13. Z. Kannai, P. Tallos, Stability of solution sets of differential inclusions, Acta Sci. Math. (Szeged), 61 (1995), 197-207.
14. M. Kozak, A fundamental solution of a second-order differential equation in a Banach space, Univ. Iagel. Acta. Math., 32 (1995), 275-289.
15. T. C. Lim, On fixed point stability for set valued contractive mappings with applications to generalized differential equations, J. Math. Anal. Appl., 110 (1985), 436-441.
16. P. Talllos, A Filippov-Gronwall type inequality in infinite dimensional space, Pure Math. Appl., 5 (1994), 355-362.

Yıl 2019, Cilt: 3 Sayı: 3, 141 - 149, 31.08.2019

Aurelian Cernea

https://doi.org/10.31197/atnaa.612236

Öz

Kaynakça

1. A. Baliki, M. Benchohra, J.R. Graef, Global existence and stability of second order functional evolutionequations with infinite delay, Electronic J. Qual. Theory Differ. Equations, 2016, no. 23, (2016), 1-10.
2. A. Baliki, M. Benchohra, J.J. Nieto, Qualitative analysis of second-order functional evolution equations,Dynamic Syst. Appl., 24 (2015), 559-572.
3. M. Benchohra, I. Medjadj, Global existence results for second order neutral functional differential equationswith state-dependent delay, Comment. Math. Univ. Carolin. 57 (2016), 169-183.
4. C. Castaing, M. Valadier, Convex Analysis and Measurable Multifunctions, Springer, Berlin, 1977.
5. A. Cernea, Lipschitz-continuity of the solution map of some nonconvex evolution inclusions, Anal. Univ. Bucuresti,Mat., 57 (2008), 189-198.
6. A. Cernea, On the existence of mild solutions of a nonconvex evolution inclusion, Math. Commun., 13 (2008),107-114.
7. A. Cernea, Some remarks on the solutions of a second-order evolution inclusion, Dynamic Syst. Appl., 27 (2018), 319-330.
8. H. Covitz, S. B. Nadler jr., Multivalued contraction mapping in generalized metric spaces, Israel J. Math., 8 (1970), 5-11.
9. N. Dunford, B.J. Pettis, Linear operators and summable functions, Trans. Amer. Math. Soc., 47 (1940), 323-392.
10. A.F. Filippov, Classical solutions of differential equations with multivalued right-hand side, SIAM J. Control Optim., 5 (1967), 609-621.
11. H.R. Henriquez, Existence of solutions of nonautonomous second order functional differential equations with infinite delay, Nonlinear Anal., 74 (2011), 3333-3352.
12. H.R. Henriquez, V. Poblete, J.C. Pozo, Mild solutions of non-autonomous second order problems with nonlocal initial conditions, J. Math. Anal. Appl., 412 (2014), 1064-1083.
13. Z. Kannai, P. Tallos, Stability of solution sets of differential inclusions, Acta Sci. Math. (Szeged), 61 (1995), 197-207.
14. M. Kozak, A fundamental solution of a second-order differential equation in a Banach space, Univ. Iagel. Acta. Math., 32 (1995), 275-289.
15. T. C. Lim, On fixed point stability for set valued contractive mappings with applications to generalized differential equations, J. Math. Anal. Appl., 110 (1985), 436-441.
16. P. Talllos, A Filippov-Gronwall type inequality in infinite dimensional space, Pure Math. Appl., 5 (1994), 355-362.

Toplam 16 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Matematik
Bölüm	Articles
Yazarlar	Aurelian Cernea
Yayımlanma Tarihi	31 Ağustos 2019
Yayımlandığı Sayı	Yıl 2019 Cilt: 3 Sayı: 3

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