Abstract degenerate Volterra inclusions in locally convex spaces

Authors

  • Marko Kostic Univ. of Novi Sad, Serbia

DOI:

https://doi.org/10.58997/ejde.2023.63

Keywords:

Abstract degenerate Volterra inclusion; locally convex space; Abstract degenerate fractional differential equation; (a,k)-regularized C-resolvent family; multivalued linear operator

Abstract

In this paper, we analyze the abstract degenerate Volterra integro-differential equations in sequentially complete locally convex spaces by using multivalued linear operators and vector-valued Laplace transform. We follow the method which is based on the use of (a, k)-regularized C-resolvent families generated by multivalued linear operators and which suggests a very general way of approaching abstract Volterra equations. Among many other themes, we consider the Hille-Yosida type theorems for \((a, k)\)-regularized C-resolvent families, differential and analytical properties of \((a, k)\)-regularized $C$-resolvent families, the generalized variation of parameters formula, and subordination principles. We also introduce and analyze the class of \((a, k)\)-regularized \((C_1,C_2)\)-existence and uniqueness families. The main purpose of third section, which can be viewed of some independent interest, is to introduce a relatively simple and new theoretical concept useful in the analysis of operational properties of Laplace transform of non-continuous functions with values in sequentially complete locally convex spaces. This concept coincides with the classical concept of vector-valued Laplace transform in the case that \(X\) is a Banach space.

For more information see https://ejde.math.txstate.edu/Volumes/2023/63/abstr.html

References

W. Arendt, C. J. K. Batty, M. Hieber, F. Neubrander; Vector-valued Laplace Transforms and Cauchy Problems, Monographs in Mathematics, Vol. 96, Birkhauser, Basel, 2001.

W. Arendt, O. El Mennaoui, V. Keyantuo; Local integrated semigroups: evolution with jumps of regularity, J. Math. Anal. Appl., 186(2) (1994), 572-595.

J. M. Ball; Strongly continuous semigroups, weak solutions, and the variation of constants formula, Proc. Amer. Math. Soc., 63(2) (1997), 370-373.

A. G. Baskakov; Linear relations as generators of semigroups of operators, Math. Notes, 84(1-2) (2008), 166-183.

E. Bazhlekova; Fractional Evolution Equations in Banach Spaces, Thesis, Eindhoven University of Technology, Eindhoven, 2001.

M. S. Bichegkuev; On some classes of infinitely differentiable operator semigroups, Differ. Equ., 46(2) (2010), 224-238.

M. S. Bichegkuev; To the theory of infinitely differentiable semigroups of operators, St. Petersburg Math. J., 22(2) (2011), 175-182.

R. W. Carroll, R. W. Showalter; Singular and Degenerate Cauchy Problems, Academic Press, New York, 1976.

R. Cross; Multivalued Linear Operators, Marcel Dekker Inc., New York, 1998.

S. Das; Functional Fractional Calculus, Springer-Verlag, Berlin, 2011.

R. deLaubenfels; Existence Families, Functional Calculi and Evolution Equations, Lecture Notes in Mathematics 1570, Springer-Verlag, New York, 1994.

R. deLaubenfels, F. Yao, S. W. Wang; Fractional powers of operators of regularized type, J. Math. Anal. Appl., 199(3) (1996), 910-933.

G. V. Demidenko, S. V. Uspenskii; Partial Differential Equations And Systems Not Solvable With Respect To The Highest-Order Derivative, Vol. 256 of Pure and Applied Mathematics Series, CRC Press, New York, 2003.

K. Diethelm; The Analysis of Fractional Differential Equations. An Application-Oriented Exposition Using Differential Operators of Caputo Type, Springer-Verlag, Berlin, 2010.

R. Dragoni, J. W. Macki, P. Nistri, P. Zecca; Solution Sets of Differential Equations in Abstract Spaces, vol. 342, CRC Press, Boca Raton, 1996.

M. V. Falaleev, S. S. Orlov; Continuous and generalized solutions of singular integrodifferential equations in Banach spaces, IIGU Ser. Matematika, 5(1) (2012), 62-74.

A. Favini, A. Yagi; Degenerate Differential Equations in Banach Spaces, Chapman and Hall/CRC Pure and Applied Mathematics, New York, 1998.

A. Favini, H. Tanabe; Degenerate Volterra equations in Banach spaces, Differ. Integral Equ., 14(5) (2001), 613-640.

A. Favaron, A. Favini; On the behaviour of singular semigroups in intermediate and interpolation spaces and its applications to maximal regularity for degenerate integro-differential evolution equations, Abstr. Appl. Anal., vol. 2013, Art. ID 275494, 37 pp.

A. Favini, A. Lorenzi, H. Tanabe; Degenerate integrodifferential equations of parabolic type, In: Differential Equations: Inverse and Direct Problems, Chapman and Hall/CRC Press, Boca Raton, 2006, pp. 91-109.

A. Favini, A. Lorenzi, H. Tanabe; Degenerate integrodifferential equations of parabolic type with Robin boundary conditions: L2-theory, J. Math. Soc. Japan, 61(1) (2009), 133-176.

V. E. Fedorov, A. Debbouche; A class of degenerate fractional evolution systems in Banach spaces, Differ. Equ., 49(12) (2013), 1569-1576.

V. E. Fedorov, D. M. Gordievskikh; Resolving operators of degenerate evolution equations with fractional derivative with respect to time, Russian Math. (Iz. VUZ), 1(1) (2015), 71- 83.,

V. E. Fedorov, D. M. Gordievskikh, M. V. Plekhanova; Equations in Banach spaces with a degenerate operator under a fractional derivative, Differ. Equ., 51(10) (2015), 1360-1368.

V. E. Fedorov; Strongly holomorphic groups of linear equations of Sobolev type in locally convex spaces, Differ. Equ., 40(5) (2004), 753-765.

S. G. Gal, J. A. Goldstein; Semigroups of linear operators on p-FrŽechet spaces, 0 < p < 1, Acta Math. Hungar., 114(1) (2007), 13-36.

R. Hermann; Fractional Calculus: An Introduction for Physicists, World Scientific, 2nd edition, Singapore, 2014.

Sk. Jaker Ali, N. D. Chakraborty; Pettis integration in locally convex spaces, Anal. Math., 23 (1997), 241-257.

M. Kazimierz; Vitali and Lebesgue convergence theorems for Pettis integral in locally convex spaces, Atti Sem. Mat. Fis. Univ. Modena, 35 (1987), 159-165.

A. A. Kilbas, H. M. Srivastava, J. J. Trujillo; Theory and Applications of Fractional Differential Equations, Elsevier Science B.V., Amsterdam, 2006.

M. Kim, Volterra inclusions in Banach spaces, Rocky Mountain J. Math., 32(1) (2002), 167178.

C. Knuckles, F. Neubrander; Remarks on the Cauchy problem for multi-valued linear operators, https://www.math.lsu.edu/ neubrand/KnNe94.ps; In: Partial Differential Equations (Hansur- Lesse, 1993), pages 174-187, Akademie-Verlag, Berlin, 1994.

H. Komatsu; Semi-groups of operators in locally convex spaces, J. Math. Soc. Japan, 16 (1964), 230-262.

T. Komura; Semigroups of operators in locally convex spaces, J. Funct. Anal., 2 (1968), 258-296.

M. Kostic; Generalized Semigroups and Cosine Functions, Mathematical Institute SANU, Belgrade, 2011.

M. Kostic; Abstract Volterra Integro-Differential Equations, Taylor and Francis Group/CRC Press/Science Publishers, Boca Raton, Fl, 2015.

M. Kostic; Almost Periodic and Almost Automorphic Solutions to Integro-Differential Equations, W. de Gruyter, Berlin, 2019.

M. Kostic; Abstract Degenerate Volterra Integro-Differential Equations, Mathematical Institute SANU, Belgrade, 2020.

M. Kostic; (a, k)-regularized C-resolvent families: regularity and local properties, Abstr. Appl. Anal., vol. 2009, Article ID 858242, 27 pages, 2009.

M. Kostic; Abstract time-fractional equations: existence and growth of solutions, Fract. Calc. Appl. Anal., 14(2) (2011), 301-316.

M. Kostic; Abstract Volterra equations in locally convex spaces, Sci. China Math., 55(1) (2012), 1797-1825.

M. Kostic; Degenerate k-regularized (C1,C2)-existence and uniqueness families, CUBO, 17(03) (2015), 15-41.

M. Kostic; Abstract degenerate non-scalar Volterra equation, Chelyabinsk Phy. Math. J., 1(1) (2016), 99-106.

M. Kostic; On entire solutions of abstract degenerate differential equations of higher order, Funct. Anal. Approx. Comput., 8(1) (2016), 51-60.

M. Kostic; Degenerate abstract Volterra equations in locally convex spaces, Filomat, 31(3) (2017), 597-619.

M. Kostic; Degenerate multi-term fractional differential equations in locally convex spaces, Publ. Inst. Math., Nouv. SŽer., 100(114) (2016), 49-75.

M. Kostic; On a class of abstract degenerate fractional differential equations of parabolic type, Comment. Math. Univ. Carolin., 59(1) (2018), 81-101.

M. Kostic; Abstract degenerate fractional differential inclusions, Appl. Anal. Discrete Math., 11(1) (2017), 39-61.

M. Kostic; Some contributions to the theory of abstract degenerate Volterra integrodifferential equations, J. Math. Stat., 12(2) (2016), 65-76.

M. Kostic,; Degenerate K-convoluted C-semigroups and degenerate K-convoluted C-cosine functions in locally convex spaces, Chelyabinsk Phy. Math. J., 3(1) (2018), 90-110.

M. Kostic; Perturbation results for abstract degenerate Volterra integro-differential equations, J. Fract. Calc. Appl., 9(1) (2018), 237-252.

M. KostiŽc; Approximation and convergence of degenerate (a, k)-regularized C-resolvent families, Bull. Cl. Sci. Math. Nat. Sci. Math., 42 (2017), 69-83.

M. Kostic, S. PilipoviŽc, D. Velinov; C-Distribution semigroups and C-ultradistribution semigroups in locally convex spaces, Siberain Math. J., 58(3) (2017), 476-492.

C.-C. Kuo; Local K-convoluted C-semigroups and abstract Cauchy problems, Taiwanese J. Math., 19(4) (2015), 1227-1245.

C.-C. Kuo; Local K-convoluted C-cosine functions and abstract Cauchy problems, Filomat, 30(9) (2016), 2583-2598.

M. Kunze; A Pettis-type integral and applications to transition semigroups, Czechoslovak Math. J., 61(136) (2011), 437-459.

Y.-C. Li, S.-Y. Shaw; N-times integrated C-semigroups and the abstract Cauchy problem, Taiwanese J. Math., 1(1) (1997), 75-102.

Y.-C. Li, S.-Y. Shaw; On characterization and perturbation of local C-semigroups, Proc. Amer. Math. Soc., 135(4) (2007), 1097-1106.

C. Lizama; Regularized solutions for abstract Volterra equations, J. Math. Anal. Appl., 243(2) (2000), 278292.

R. Madbouly, A. G. Radwan, R. A. El Barkouky; On Some Fractional-Order Electromagnetic Problems, Lambert Academic Publishing, 2015.

C. Martinez, M. Sanz; The Theory of Fractional Powers of Operators, NorthHolland Math. Stud. 187, Elseiver, Amsterdam, 2001.

R. Meise, D. Vogt; Introduction to Functional Analysis, Translated from the German by M. S. Ramanujan and revised by the authors. Oxf. Grad. Texts Math., Clarendon Press, New York, 1997.

I. V. Melnikova, A. I. Filinkov; Abstract Cauchy Problems: Three Approaches, Chapman and Hall/CRC, Boca Raton, 2001.

I. V. Melnikova; The Cauchy problem for differential inclusion in Banach space and distribution spaces, Siberian Math. J., 42(4) (2001), 751-765.

V. Obukhovskii, P. Zecca; On boundary value problems for degenerate differential inclusions in Banach spaces, Abstr. Appl. Anal., 13 (2003), 769-784.

H. Oka; Linear Volterra equations and integrated solution families, Semigroup Forum, 53(1) (1996), 278-297.

I. Podlubny; Fractional Differential Equations, Academic Press, New York, 1999.

J. Pruss, Evolutionary Integral Equations and Applications, Birkhauser-Verlag, Basel, 1993.

R. Servadeia, E. Valdinoci; On the spectrum of two different fractional operators, Proc. Royal Soc. Edinburgh, 144(4) (2014), 831-855.

S. G. Samko, A. A. Kilbas, O. I. Marichev; Fractional Derivatives and Integrals: Theory and Applications, Gordon and Breach, New York, 1993.

N. Sauer; Linear evolution equations in two Banach spaces, Proc. Royal Soc. Edinburgh, 91A(3-4) (1982), 287-303.

F. Schwenninger; Generalisations of Semigroups of Operators in the View of Linear Relations, Technischen Universitrat Wien Diplomarbeit, 2011.

G. A. Sviridyuk, V. E. Fedorov; Linear Sobolev Type Equations and Degenerate Semigroups of Operators, Inverse and Ill-Posed Problems (Book 42), VSP, Utrecht, Boston, 2003.

V. E. Tarasov; Fractional Dynamics: Applications of Fractional Calculus to Dynamics of Particles, Fields and Media, Springer-Verlag, Berlin, 2010.

B. Thaller, S. Thaller; Factorization of degenerate Cauchy problems: the linear case, J. Operator Theory, 36(1) (1996), 121-146.

B. Thaller, S. Thaller; Semigroup theory of degenerate linear Cauchy problems, Semigroup Forum, 62(3) (2001), 375-398.

H. Triebel; Interpolation Theory. Function Spaces. Differential Operators, North-Holland Publ. Company, 1978.

S. Wang; Properties of subgenerators of C-regularized semigroups, Proc. Amer. Math. Soc., 126(2) (1998), 453460.

T.-J. Xiao, J. Liang; The Cauchy Problem for HigherOrder Abstract Differential Equations, SpringerVerlag, Berlin, 1998.

T.-J. Xiao, J. Liang; Laplace transforms and integrated, regularized semigroups in locally convex spaces, J. Funct. Anal., 148(2) (1997), 448-479.

A. Yagi; Generation theorem of semigroup for multivalued linear operators, Osaka J. Math., 28(2) (1991), 385-410.

K. Yosida; Holomorphic semigroups in a locally convex linear topological space, Osaka Math. J., 15(1) (1963), 51-57.

M. Zubair, M. J. Mughal, Q. A. Naqvi; Electromagnetic Fields and Waves in Fractional Dimensional Space, Springer-Verlag, Berlin, 2012.

Downloads

Published

2023-09-25

Issue

Vol. 2023 No. 01-87 (2023)

Section

Articles

Categories

License

Copyright (c) 2023 Marko Kostic

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

Abstract degenerate Volterra inclusions in locally convex spaces. (2023). Electronic Journal of Differential Equations, 2023(01-87), No. 63, 1-55. https://doi.org/10.58997/ejde.2023.63