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## Discussiones Mathematicae, Differential Inclusions, Control and Optimization

2002 | 22 | 1 | 17-32
Tytuł artykułu

### On the topological dimension of the solutions sets for some classes of operator and differential inclusions

Autorzy
Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the present paper, we give the lower estimation for the topological dimension of the fixed points set of a condensing continuous multimap in a Banach space. The abstract result is applied to the fixed point set of the multioperator of the form $𝓕 = S 𝓟_F$ where $𝓟_F$ is the superposition multioperator generated by the Carathéodory type multifunction F and S is the shift of a linear injective operator. We present sufficient conditions under which this set has the infinite topological dimension. In the last section of the paper, we consider the applications of the solutions sets for Cauchy and periodic problems for semilinear differential inclusions in a Banach space.
Słowa kluczowe
EN
Kategorie tematyczne
Rocznik
Tom
Numer
Strony
17-32
Opis fizyczny
Daty
wydano
2002
otrzymano
2001-03-19
Twórcy
autor
• Technical University Muenchen, D-80290 Muenchen, Germany
autor
• Department of Mathematics, Voronezh University, (394693) Voronezh, Russia
autor
• Department of Mathematics, Voronezh University, (394693) Voronezh, Russia
autor
• Department of Mathematics, Voronezh University, (394693) Voronezh, Russia
Bibliografia
• [1] P.S. Aleksandrov and B.A. Pasynkov, Introduction to Dimension Theory, Nauka, Moscow 1973 (in Russian).
• [2] J.P. Aubin and A. Cellina, Differential Inclusions. Set-Valued Maps and Viability Theory, Springer-Verlag, Berlin-Heidelberg-New York-Tokyo 1984.
• [3] Yu.G. Borisovich, B.D. Gelman, A.D. Myshkis and V.V. Obukhovskii, Topological methods in the fixed-point theory of multivalued maps, Russian Math. Surveys 35 (1980), 65-143.
• [4] Yu.G. Borisovich, B.D. Gelman, A.D. Myshkis and V.V. Obukhovskii, Multivalued Mappings, J. Sov. Math. 24 (1984), 719-791.
• [5] Yu.G. Borisovich, B.D. Gelman, A.D. Myshkis and V.V. Obukhovskii, Introduction to the Theory of Multivalued Maps, Voronezh Gos. Univ., Voronezh 1986 (in Russian).
• [6] J.F. Couchouron, M. Kamenski, A Unified Topological Point of View for Integro-Differential Inclusions, Differential Inclusions and Opt. Control (J. Andres, L. Górniewicz, and P. Nistri eds.), Lecture Notes in Nonlinear Anal. 2 (1998), 123-137.
• [7] C. Castaing and M. Valadier, Convex Analysis and Measurable Multifunctions, Lect. Notes in Math. 580, Springer-Verlag, Berlin-Heidelberg-New York 1977.
• [8] R. Dragoni, J.W. Macki, P. Nistri and P. Zecca, Solution Sets of Differential Equations in Abstract Spaces, Pitman Res. Notes in Math., 342, Longman 1996.
• [9] Z. Dzedzej and B. Gelman, Dimension of a set of solutions for differential inlcusions, Demonstratio Math. 26 (1993), 149-158.
• [10] R. Engelking, Dimension Theory, PWN, Warszawa 1978.
• [11] B.D. Gelman, Topological properties of the set of fixed points of a multivalued map, Mat. Sbornik 188 (1997), 33-56 (in Russian); English transl.: Sbornik: Mathem. 188 (1997), 1761-1782.
• [12] B.D. Gelman, On topological dimension of a set of solutions of functional inclusions, Differential Inclusions and Opt. Control (J. Andres, L. Górniewicz and P. Nistri eds.), Lecture Notes in Nonlinear Anal. 2 (1998), 163-178.
• [13] S. Hu and N.S. Papageorgiou, Handbook of Multivalued Analysis, Vol. I: Theory, Kluwer Acad. Publ. Dordrecht-Boston-London 1997.
• [14] M. Kamenskii, V. Obukhovskii and P. Zecca, Condensing Multivalued Maps and Semilinear Differential Inclusions in Banach Spaces, De Gruyter Ser. in Nonlinear Analysis and Appl. 7, Walter de Gruyter, Berlin-New York 2001.
• [15] M. Kisielewicz, Differential Inclusions and Optimal Control, PWN, Warszawa, Kluwer Academic Publishers, Dordrecht-Boston-London 1991.
• [16] M.A. Krasnoselskii, P.P. Zabreiko, E.I. Pustylnik and P.E. Sobolevskii, Integral Operators in Spaces of Summable Functions, Noordhoff International Publishing, Leyden 1976.
• [17] E. Michael, Continuous selections I, Ann. Math. 63 (1956), 361-382.
• [18] B. Ricceri, On the topological dimension of the solution set of a class of nonlinear equations, C.R. Acad. Sci. Paris Ser. I Math. 325 (1997), 65-70.
• [19] J. Saint Raymond, Points fixes des multiapplications a valeurs convex, C.R. Acad. Sci. Paris Ser. I Math. 298 (1984), 71-74.
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Bibliografia
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