[1] Ciric L B. A generalization of Banach’s contraction principle[J]. Proc Am Math Soc,1974,45:267273.
[2]
Cousot P, Cousot R. Constructive versions of Tarski’s fixed point theorems[J]. Pacific J Math,1979,82:4357.
[3]
Ran A C M, Reurings M C B. A fixed point theorem in partially ordered sets and some applications to matrix equations[J]. Proc Amer Math Soc,2004,132:14351443.
[4]
Ladde G S, Lakshmikantham V, Vatsala A S. Monotone Iterative Techniques for Nonlinear Differential Equations[M]. Boston:Pitman,1985.
[5]
Nieto J J, RodriguezLopez R. Existence and uniqueness of fixed point in partially ordered sets and applications to ordinary dierential equations[J]. Acta Math Sinica:English Series,2007,23:22052212.
[6]
Amann H. Order structures and fixed points[C]//Mimeographed Lecture Notes. Bochum:Ruhr Universitt,1977.
[7]
Tarski A. A latticetheoretical fixpoint theorem and its applications[J]. Pacific J Math,1955,5:285309.
[8]
Nieto J J, RodriguezLopez R. Contractive mapping theorems in partially ordered sets and applications to ordinary differential equations[J]. Order,2005,22:223239.
[9]
Chang S S. Random fixed point theorem in probabilistic analysis[J]. Nonlinear Anal,1981,5:113122.
[10]
ElSayed S M, Ran A C M. On a iteration method for solving a class of nonlinear matrix equations[J]. SIAM J Matrix Anal Appl,2002,23:632645.
[11]
Agarwal R P, Cho Y J, Li J, et al. Stability of iterative procedures with errors approximating common fixed point for a couple of quasicontractive mappings in quniformly smooth Banach spaces[J]. J Math Anal Appl,2002,272:435447.
[12]
Ishikawa S. Fixed point by a new iteration method[J]. Proc Am Math Soc,1974,44:147150.
