个人简介
1958.1.9,出生于江苏省泰兴
1975.11-1978.2,江苏省泰兴姚王乡中学教师
1978.3-1982.1,扬州师范学院(现名扬州大学)数学系学生
1982.2-1987.8,盐城教育学院数学系助教
1987.9-1988.6,西南师范大学(现名西南大学)基础数学助教进修班学员
1988.6-1995.8,盐城教育学院数学系讲师
1995.8-1999.3,盐城教育学院数学系副教授
1999.3-2002.7,盐城师范学院数学系副教授
2002.8-2003.8,盐城师范学院数学系教授
2003.9-2006. 8,南京信息工程大学数学系教授
2006.9-2011. 12,南京信息工程大学数理学院教授
2012.1-现在,南京信息工程大学数学与统计学院学院教授
研究领域
泛函分析空间理论
概率度量线性空间上的泛函分析
模糊泛函分析
格上度量理论
算子不动点理论与应用
抽象空间的方程与包含理论
数学控制理论
近期论文
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Jian-Zhong Xiao, Xing-Hua Zhu, Approximate controllability for abstract semilinear impulsive functional differential inclusions based on Hausdorff product measures, Topological Methods in Nonlinear Analysis, 2018, 52(2), 353-372. (SCIE)
Jian-Zhong Xiao, Ying Lu, Some fixed point theorems for s-convex subsets in p-normed spaces based on measures of noncompactness, Journal of Fixed Point Theory and Applications, 2018, 20(2),1-22. (SCIE)
肖建中,王智勇,居加敏,向量半线性二阶脉冲泛函微分包含的C1-可解性,应用数学学报,2017,40(6): 820-840.
Jian-Zhong Xiao, Xing-Hua Zhu, Zhong-Hao Yao,Controllability results for second order semilinear functional differential inclusions based on Kuratowski product measures, IMA Journal of Mathematical Control and Information, 2018, 35: i31-i50. (SCIE)
Jian-Zhong Xiao, Zhi-Yong Wang , Juan Liu, Hausdorff product measures and C1-solution sets of abstract semilinear functional differential inclusions, Topological Methods in Nonlinear Analysis, 2017, 49 (1) : 273-298. (SCIE)
Jian-Zhong Xiao,Xing-Hua Zhu, Pan-Pan Jin. Iterated function systems and attractors in the KM fuzzy metric spaces. Fuzzy Sets and Systems, 2015, 267: 100-116. (SCI)
Jian-Zhong Xiao, Jia-Min Ju, Pan-Pan Jin. Boundary value problems for semilinear fuzzy impulsive differential inclusions based on semigroups in Banach spaces. Journal of Intelligent & Fuzzy Systems, 2015, 28: 669-680. (SCIE)
肖建中, 严洁, 朱杏华. Hilbert空间中非扩张余弦族的显式、隐式和黏性迭代. 数学物理学报(A辑), 2014, 34(6): 1518-1531.
Jian-Zhong Xiao, Xing-Hua Zhu, Jie Yan. Probabilistic fractals and attractors in Menger spaces. Nonlinear Analysis: Theory, Methods & Applications, 2014, 97: 106-118. ( SCI)
Jian-Zhong Xiao, Xing-Hua Zhu, Xiao-Yan Liu. An alternative characterization of probabilistic Menger spaces with H-type triangular norms. Fuzzy Sets and Systems, 2013, 227 : 107-114. ( SCI)
Jian-Zhong Xiao, Xing-Hua Zhu, Zhi-Mo Shen, Common coupled fixed point results for hybrid nonlinear contractions in metric spaces, Fixed Point Theory, 2013,14(1): 235-250. ( SCIE)
Jian-Zhong Xiao, Yue-Hua Cang, Qin-Feng Liu, Existence of solutions for a class of boundary value problems of semilinear differential inclusions. Mathematical and Computer Modelling, 2013, 57: 671-683 ( SCIE)
Jian-Zhong Xiao, Xing-Hua Zhu, Xin Jin. Fixed point theorems for nonlinear contractions in Kaleva–Seikkala’s type fuzzy metric spaces. Fuzzy Sets and Systems, 2012, 200: 65-83. ( SCI)
Jian-Zhong Xiao, Xing-Hua Zhu, Rong Cheng. The solution sets for second order semilinear impulsive multivalued boundary value problems. Computers and Mathematics with Applications, 2012, 64: 147-160. ( SCI)
Jian-Zhong Xiao, Xing-Hua Zhu. The Chebyshev selections and fixed points of set-valued mappings in Banach spaces with some uniform convexity, Mathematical and Computer Modelling, 2011, 54(5-6): 1576-1583. ( SCIE)
Jian-Zhong Xiao, Xing-Hua Zhu, Yin-Fang Cao. Common coupled fixed point results for probabilistic-contractions in Menger spaces. Nonlinear Analysis: Theory, Methods & Applications, 2011, 74(13): 4589-4600. ( SCI)
Jian-Zhong Xiao, Xing-Hua Zhu. Some fixed point theorems for s-convex subsets in p-normed spaces. Nonlinear Analysis : Theory, Methods & Applications, 2011, 74(5): 1738-1748. ( SCI)
Jian-Zhong Xiao, Ying Lu. Condensing operators and topological degree theory in standard fuzzy normed spaces. Fuzzy Sets and Systems , 2010, 161 : 1047–1063. (SCI)
Jian-Zhong Xiao,Jing Sun, Xuan Huang. Approximating common fixed points of asymptotically quasi-nonexpansive mappings by a k+1-step iterative scheme with error terms.Journal of Computational and Applied Mathematics ,2010,233:2062-2070.(SCI)
Jian-zhong Xiao, Xing-hua Zhu. Metric topology on the L-fuzzy real line.Fuzzy Sets and Systems, 2009,160:1267–1276. ( SCI)