This document summarizes a research paper on asymptotic attractivity results for functional differential equations in Banach algebras.
The paper proves the existence of locally asymptotically attractive solutions and asymptotic stability for nonlinear functional differential equations in Banach algebras. It establishes conditions under which the solutions are uniformly locally asymptotically attractive on a given interval.
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Presentation- Research Paper
1. • Asymptotic Attractivity Results
For Functional Differential
Equation In Banach Algebras
By
S.N. SALUNKHE
Rani Laxmibai Mahavidyalaya, Parola,
Dist. Jalgaon, Maharashtra (India)
Email: saisns@rediffmail.com
1
2. 2
Abstract:
In this paper, we have proved an existence results
for local asymptotic attractivity and existence of
asymptotic stability of solutions for nonlinear
functional differential equations in Banach algebras
Keywords:
Asymptotic attractivity and stability,Nonlinear
functional differential equations ,Banach algebras. .
3. 3
1. Statement of Problem
Let denote the real line and let and be two closed and
bounded intervals in . Let , then is a closed and bounded intervals in .
Let C denote the Banach space of all continuous real-valued functions on with the
supremum norm defined by
Clearly C is a Banach algebras with respect to this norm and the multiplication
defined by
Consider the first order functional differential equation (In short FDE)
= a.e. (1.1)
Where is continuous, and function
for all
By a solution of FDE (1.1) we means,a function
that satisfies the equations in (1.1), where is the space of all absolutely
continuous real-valued functions on .
4. 4
The functional differential equations have been the most active area of
research since long time. See Hale (1), Henderson (2) and the references there
in. But the study of functional differential equations in Banach algebras is very
rare in the literature. Very resently the study along this line has been initiated
via fixed point theorems. See Dhage and Regan (4) and Dhage(3) and the
references there in. The FDE (1.1) is new to the literature and the study of this
problem will definitely contribute immensely to the area of functional
differential equations. In this paper, we proved the Local asymptotic
attractivity results via a hybrid fixed point theorem of Dhage(5) which in turn
gives the asymptotic stability of the solutions for the FDE(1.1). The results
obtained in the paper generalize and extend several ones obtained earlier in a
lot of paper concerning the asymptotic attractivity of solutions for some
functional differential and integral equation.
5. 5
2. Preliminaries and characterizations of solutions
Let X= be the space of continuous and bounded real-valued functions on Let be a subset of X. Let
be an operator and consider the following operator equation in X,
=Q (2.1)
for .
Definition (2.2): We say that solutions of equation (2.1) are locally attractively if there exists a closed ball in the
space , for some and such that for arbitrary solutions and of equation
(2.1) belonging to we have
(2.3)
In the case when this limit (2.3) is uniform with respect to the set i.e. when for each such
that
(2.4)
For all being solution of (2.1) and , we will say that solutions of equation (2.1) are
uniformly local attractive on .
Here remark that the point belonging to the Banach space in the above definition is specific in the sense
that (2.3) or (2.4) may not hold for any other point in different from .
Definition 2.5): A solution of equation (2.1) is said to be asymptotic if there exists a real number such that
and we say that the solution is asymptotic to the number on .
6. 6
We need the following definition used in the sequel.
Definition (2.6): The solutions of the equation (2.1) are said to be locally asymptotically
attractive if there exists and such that for all asymptotic
solutions
of the equation (2.1) belonging to we have that condition (2.3) is
satisfied. In the case when the condition (2.3) is satisfied uniformly with respect to the
set , we will say that solutions of the equation (2.1) are uniformly locally
asymptotically attractive.
Remark (2.7): By we denote the space of Lebesgue integrable functions on
and the norm in is defined by
We employ a hybrid fixed point theorem of Dhage (5) for proving the existence
results for uniform local asymptotic attracivity of the solutions for the FDE (1.1).
7. 7
We will need following useful definition.
Definition (2.8): Let X be a Banach space with norm . An operator is
called Lipschitz if there exists a constant such that
for all
The constant is called the Lipschitz constant of on X.
Definition (2.9): An operator is called compact if is a compact for any
subset S of X. Similarly is called totally bounded if maps a bounded subset
of X. Finally is called completely continuous operator if it is continuous and
totally bounded operator on X.
8. 8
Theorem (2.10)(Dhage 5): Let S be a closed convex and bounded subset of
the Banach algebra X and let be two operators such that
(a)A is Lipschitz with Lipschit’s constant
(b)B is completely continuous
(c) for all and
(d) where
Then the operator equation
(2.11)
has a solution and the set of all solutions is compact in S.
9. 9
3. Existence of Solution and Local Asymptotic Attractivity.
We consider the following of hypotheses in the sequel.
The function is continuous and there exists a bounded function
with bound L satisfying
for all and
The function defined by is bounded with .
The function is continuous.
The function is continuous and
The function is continuous and there exists continuous function
satisfying
, for all and
Where
10. 10
Theorem (3.2): Assume that the hypotheses , through ( hold.
Furthermore, if then the FDE (1.1) has at least one
solution in the space and are solutions are uniformly locally
asymptotically attractive on , where constants are
and
.
11. 11
Proof: Set X= . Consider the closed ball in X centered at origin O and radius ,
where .
Now the FDE (1.1) is equivalent to the functional integral equation (In short FIE)
(3.3)
And (3.4)
Define the two mapping A and B on by
(3.5)
And (3.6)
Obviously A and B define the operators . We shall show that A and B satisfy all
the conditions of Theorem (3.2) on .
12. 12
We first show that A is a Lipschitzian on . Let . Then by
for all .
Taking the supremum over , we obtain
for all
So A is a Lipschitzian on with a Lipschitz constant .
Next we show that B is continuous and compact operator on . First we show that B is continuous on , for this
and such that . Then we get
13. 13
(3.7)
Hence, in virtue of hypothesis , we infer that there exists such that for
Thus, for from (3.7), we obtain that
Furthermore, let us assume that .
Then evaluating similarly as above we obtain the estimate:
(3.8)
Where we denoted and
Obviously, we have in view of continuity of that Moreover; from the uniform continuity of the function
on the set we derive that as . Now, linking (3.7),(3.8) and the above fact we
conclude that the operator B maps continuously the ball into itself.
14. 14
Next, we show that B is compact on . To finish, it is enough to show that every sequence
in has Cauchy subsequence. Now by and ,
(3.9)
For all . Taking supremum over t, we obtain for all This shows that
is a uniformly bounded sequence in . We show that it is also equicontinuous.
Let be given, since and there are constants and such
that for all and for all . Let Let be
arbitrary. If then we have
for .
And for .
By the uniform continuity of the function and and the function in , we obtain
as .
Hence is an equicontinuous sequence of functions in X. Now an application of Arzela-Ascoli
theorem yields that has a uniformly convergent subsequence on the compact subset of .
Without loss of generality, call the is Cauchy in X.
15. 15
Now as for all .
Then for given such that
For all . Therefore, if then we have
This shows that is Cauchy. Since X is complete, converges to a point in X. As
is closed converges to a point in . Hence is relatively compact and
consequently B is continuous and compact operator on .
16. 16
Next, we show that , for all . Let be arbitrary. Then
for all .
Taking the supremum over t, we obtain , for all . Hence hypothesis (c) of theorem (2.9) holds. Here,
one has
.
And therefore, Now we apply Theorem (2.9) to conclude that the FDE (1.1) has a solution on .
17. 17
Finally, we show the uniform locally asymptotic attractivity of the solution for FDE (1.1). Let be any two solutions
of the FDE in defined on I. Then we have
for all .
Since , for , there are real numbers and such that for all and
for all . If we choose , then from the above inequality it follows that
for all .
It is easy to prove that every solution of the FDE (1.1) is asymptotic to zero on I. Consequently, the FDE (1.1) has a solution
and all the solutions are uniformly locally asymptotically attractive on I. The proof is complete.
18. 18
References:
1.J.K.Hale, Theory of functional differential equqtions, Springer Verlag, New York,1977.
2.J.Henderson ,Boundary value problems for functional differential equations , World
Scientific, Singapure,1995.
3. B.C.Dhage, Fixed points theorems in ordered Banach algebras and
applications, Panamer.Math.J.94(1999),93-102.
4. B.C.Dhage,O’Regan, A Fixed points theorems in Banach algebras with applications to
nonlinear integral equations, Functional Diff. Equations 7 3-4(2000),259-267..
5. B.C.Dhage, Nonlinear functional boundary value problems involving caratheodory,
Kyungpook Math.J.46(2006),427-441.
6. S.N.Salunkhe,M.G.Timol, Attrctivity results for functional differential equations on
Unbounded intervals. Int. eJ.Math. Sci.Tech.Hum. 5(2011) 53-60.
7. S.N.Salunkhe, Gobal attrctivity results for neutral functional differential equations in Banach
Algebras. Int. eJ.Math. Sci.Tech.Hum. 54(2012) 577-586.