[1] R P Agarwal, S Baghli, andMBenchohra. Controllability of mild solutions on semiinfinite
interval for classes of semilinear functional and neutral functional evolution equations
with infinite delay. Applied Mathematics and Computation, 60(2):253–274, 2009.
[2] N U Ahmed. Semigroup Theory with Applications to Systems and Control. Harlow John
Wiley & Sons, Inc., New York, 1991.
[3] D Aoued and S Baghli-Bendimerad. Mild solution for perturbed evolution equations
with infinite state-dependent delay. Electronic Journal of Qualitative Theory of Differential
Equations, 2013(59):1–24, 2013.
[4] G Arthi and K Balachandran. Controllability of damped second-order neutral functional
differential systems with impulses. Taiwanese Journal of Mathematics, 16(1):89–106,
2012.
[5] C Avramescu. Some remarks on a fixed point theorem of krasnoselskii. Electronic Journal
of Qualitative Theory of Differential Equations, 2003(5):1–15, 2003.
[6] S Baghli andMBenchohra. Multivalued evolution equations with infinite delay in fréchet
spaces. Electronic Journal of Qualitative Theory of Differential Equations, 33:1–24, 2008.
[7] S Baghli and M Benchohra. Uniqueness results for partial functional differential equations
in fréchet spaces. Fixed Point Theory, 9(2):395–406, 2008.
[8] S Baghli, M Benchohra, and K Ezzinbi. Controllability results for semilinear functional
and neutral functional evolution equations with infinite delay. Surveys in Mathematics
and its Applications, 4(2):15–39, 2009.
[9] S Baghli,MBenchohra, and J J Nieto. Global uniqueness results for partial functional and
neutral functional evolution equations with state-dependent delay. Journal of Advanced
Research in Differential Equations, 2(3):35–52, 2010.
REFERENCES 400
[10] S Baghli-Bendimerad. Global mild solution for functional evolution inclusions with statedependent
delay. Journal of Advanced Research in Dynamical and Control Systems, 5(4):1–
19, 2013.
[11] T A Burton and C Kirk. A fixed point theorem of krasnoselskii type. Mathematische
Nachrichten, 189(1):23–31, 1998.
[12] N Carmichael and M D Quinn. An approach to nonlinear control problems using the
fixed point methods, degree theory and pseudo-inverses. Numerical Functional Analysis
and Optimization, 7(2-3):197–219, 1984-1985.
[13] E N Chukwu and S M Lenhart. Controllability questions for nonlinear systems in abstract
spaces. Journal of Optimization Theory and Applications, 68(3):437–462, 1991.
[14] C Corduneanu and V Lakshmikantham. Equations with unbounded delay. Nonlinear
Analysis: Theory, Methods & Applications., 4(5):831–877, 1980.
[15] K J Engel and R Nagel. One-Parameter Semigroups for Linear Evolution Equations.
Springer-Verlag, New York, 2000.
[16] A Friedman. Partial Differential Equations. Holt, Rinehat and Winston, New York, 1969.
[17] M Frigon and A Granas. Résultats de type leray-schauder pour des contractions sur des
espaces de fréchet. Annals of Science Mathematics of Québec, 22(2):161–168, 1998.
[18] T Gunasekar, F Paul Samuel, and M M Arjunan. Controllability results for impulsive
neutral functional evolution integrodifferential inclusions with infinite delay. European
International Journal of Science and Technology, 2(5):196–213, 2013.
[19] T Gunasekar, F Paul Samuel, and M M Arjunan. Controllability results for second order
impulsive neutral functional integrodifferential inclusions with infinite delay. Italian
Journal of Pure and Applied Mathematics, 31(27):319–332, 2013.
[20] J Hale and J Kato. Phase space for retarded equations with infinite delay. Funkcialaj
Ekvacioj, 21(1):11–41, 1978.
[21] J K Hale and S M Verduyn Lunel. Introduction to Functional Differential Equations . Applied
Mathematical Sciences 99, Springer-Verlag, New York, 1993.
[22] E Hernandez, R Sakthivel, and S Tanaka Aki. Existence results for impulsive evolution
differential equations with state-dependent delay. Electronic Journal of Differential Equations,
28(2008):1–11, 2008.
[23] Y Hino, S Murakami, and T Naito. Functional Differential Equations with Unbounded
Delay. Springer-Verlag, Berlin, 1991.
[24] V Kolmanovskii and A Myshkis. Introduction to the Theory and Applications of Functional-
Differential Equations. Kluwer Academic Publishers, Dordrecht, 1999.
REFERENCES 401
[25] W S Li, Y K Chang, and J J Nieto. Solvability of impulsive neutral evolution differential
inclusions with state-dependent delay. Mathematical and Computer Modelling, 49:1920–
1927, 2009.
[26] X Li and J Yong. Optimal Control Theory for Infinite Dimensional Systems. Birkhauser,
Berlin, 1995.
[27] J A Machado, C Ravichandran, M Rivero, and J J Trujillo. Controllability results for
impulsive mixed-type functional integro-differential evolution equations with nonlocal
conditions. Fixed Point Theory and Applications, 66(2015):1–16, 2015.
[28] S Nakagiri and R Yamamoto. Controllability and observability for linear retarded systems
in banach space. International Journal of Control, 49(5):1489–1504, 1989.
[29] A Pazy. Semigroups of linear operators and applications to partial differential equations.
Springer-Verlag, New York, 1983.
[30] B Radhakrishnan and K Balachandran. Controllability of nonlinear differential evolution
systems in a separable banach spaces. Electronic Journal of Differential Equations,
2012(138):1–13, 2012.
[31] S M Ramakzishna, T Gunasekar, G V Subramaniyan, and M Suba. Controllability of
impulsive neutral functional integrodifferential inclusions with an infinite delay. Global
Journal of Pure and Applied Mathematics, 10(6):817–834, 2014.
[32] JWu. Theory and Applications of Partial Functional Differential Equations. Springer-Verlag,
New York, 1996.
[33] K Yosida. Functional Analysis. Springer-Verlag, Berlin, 6th edition, 1980.
[34] J Zabczyk. Mathematical Control Theory. Birkhauser, Berlin, 1992.
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