an:05349111
Zbl 1213.54063
??iri??, Ljubomir
Fixed point theorems for multi-valued contractions in complete metric spaces
EN
J. Math. Anal. Appl. 348, No. 1, 499-507 (2008).
00232216
2008
j
54H25 54C60
complete metric space; proximal set; Hausdorff metric; set-valued contraction; fixed point
Let \((X,d)\) be a metric space and \(\text{Cl}(X)\) the collection of nonempty closed sets of \(X\). The main results of this paper are two fixed point theorems for multivalued functions. The following theorem is a generalization of Theorem 1 of \textit{N. Mizoguchi} and \textit{W. Takahashi} [J. Math. Anal. Appl. 141, No.~1, 177--188 (1989; Zbl 0688.54028)].
Theorem A. Let \((X,d)\) be a complete metric space and \(T: X\to \text{Cl}(X)\) be a mapping of \(X\) into itself. If there exists a function \(\varphi: [0,\infty)\to (0,1)\) satisfying \(\limsup\varphi*r(< 1\) for each \(t\in [0,\infty)\) and \(r\to t+\) such that for any \(x\in X\) there exists \(y\in T(x)\) satisfying the following two conditions: \(d(x,y)\leq (2-\varphi(d(x,y))) D(x,Tx)\) and \(D(y,T(y))\leq \varphi(d(x,y)) d(x,y)\), then \(T\) has a fixed point in \(X\) provided \(f(x)= D(x,T(x))\) is lower-semicontinuous.
The following theorem is a generalization of Theorem 1 [op. cit.], of Theorem 2 of \textit{Y. Feng} and \textit{S. Liu} [J. Math. Anal. Appl. 317, No.~1, 103--112 (2006; Zbl 1094.47049)] and \textit{D. Klim} and \textit{D. Wardowski} [J. Math. Anal. Appl. 334, No. 1, 132--139 (2007; Zbl 1133.54025)].
Theorem B. Let \((X,d)\) be a complete metric space and \(T: X\to \text{Cl}(X)\) be a mapping of \(X\) into itself. If there exists a function \(\varphi: [0,\infty)\to (0,1)\) and a nondecreasing function \(b: [0,\infty)\to [b,1)\), \(b> 0\), such that \(\varphi(t)< b(t)\) and \(\limsup_{t\to r+}\,\varphi(t)< \limsup_{t\to r+} b(t)\) for all \(t\in [0,\infty)\), and for any \(x\in X\) there exists \(y\in T(x)\) satisfying the following conditions: \(b(d(x,y)) d(x,y)\leq D(x,Tx)\) and \(D(y,T(y))\leq \varphi(d(x, y))\) \(d(x,y)\), then \(T\) has a fixed point in \(X\) provided \(f(x)= D(x,T(x))\) is lower-semicontinuous.
In the last part of the paper the author constructs two examples which show that the results from this paper are genuine generalizations of the results of Mizaguchi and Takahasi, Feng and Liu and Klim and Wardowski.
Valeriu Popa (Bac??u)
Zbl 0688.54028; Zbl 1094.47049; Zbl 1133.54025