A Common Fixed Point Theorem Using an Iterative Method

Q4 Mathematics Communications in Mathematical Analysis Pub Date : 2020-01-01 DOI:10.22130/SCMA.2019.71435.281
A. B. Vakilabad
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引用次数: 0

Abstract

Let $ H$ be a Hilbert space and $C$ be a closed, convex and nonempty subset of $H$. Let $T:C rightarrow H$ be a non-self and non-expansive mapping. V. Colao and G. Marino with particular choice of the sequence  ${alpha_{n}}$ in Krasonselskii-Mann algorithm, ${x}_{n+1}={alpha}_{n}{x}_{n}+(1-{alpha}_{n})T({x}_{n}),$ proved both weak and strong converging results. In this paper, we generalize their algorithm and result, imposing some conditions upon the set $C$ and finite many mappings from $C$ in to $H$, to obtain a converging sequence to a common fixed point for these non-self and non-expansive mappings.
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用迭代法求公共不动点定理
设$H$是一个希尔伯特空间,$C$是$H$的一个闭的、凸的非空子集。设$T:C右转H$是一个非自非扩展映射。V. Colao和G. Marino在Krasonselskii-Mann算法${x}_{n+1}={alpha}_{n}{x}_{n}+(1-{alpha}_{n})T({x}_{n}) $中,特别选择序列${alpha_{n}}$证明了弱收敛和强收敛的结果。在本文中,我们推广了它们的算法和结果,在集合$C$和$C$ In到$H$的有限多映射上施加一些条件,得到了这些非自非膨胀映射的一个收敛到公共不动点的序列。
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Communications in Mathematical Analysis
Communications in Mathematical Analysis Mathematics-Applied Mathematics
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