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Research articles

1. 传染病动力学方向

[6] Peifeng LiangJian Zu, Guihua Zhuang. A literature review of mathematical models of hepatitis B virus transmission applied to immunization strategies from 1994 to 2015. Journal of Epidemiology, 2018, Article ID: JE20160203. PDF

[5] Jian Zu, Guihua Zhuang, Peifeng Liang, Fuqiang Cui, Fuzhen Wang, Hui Zheng, Xiaofeng Liang. . Scientific Reports2017, 7, Article number: 2912PDF

[4]  Peifeng Liang, Jian Zu, Juan Yin, Hao Li, Longfei Gao, Fuqiang Cui, Fuzhen Wang, Xiaofeng Liang, Guihua Zhuang. The independent impact of newborn hepatitis B vaccination on reducing HBV prevalence in China, 1992-2006: A mathematical model analysis. Journal of Theoretical Biology, 2015, 386: 115-121. PDF

[3]  Gang Huang, Jinliang Wang and Jian Zu. Global dynamics of multi-group dengue disease model with latency distributions. Mathematical Methods in the Applied Sciences, 2015, 38(13): 2703-2718. PDF

[2] 吴谦, 祖建, 卫晓丽,游丽娟,寇玲玲,李恒新,庄贵华. 2013年西安市强制戒毒人员乙型肝炎病毒感染及疫苗接种状况调查. 中华预防医学杂志, 2014, 48(10): 862-866.

[1] Jinliang WangJian ZuXianning Liu, Gang Huang, Jimin Zhang. Global dynamics of a multi-group epidemic model with general relapse distribution and nonlinear incidence rate. Journal of Biological Systems, 2012, 20 (3): 235-258. PDF

2. 演化动力学方向  

[14] Jian Zu, Jinliang Wang, Gang Huang. Evolutionary diversification of prey and predator species facilitated by asymmetric interactions. PLoS ONE, 2016, 11(9): e0163753.  PDF

[13] Jian Zu, Bo Yuan, Jianqiang Du. Top predators induce the evolutionary diversification of intermediate predator species. Journal of Theoretical Biology, 2015, 387: 1-12. PDF

[12] Jian Zu, Jinliang Wang, Jianqiang Du. Adaptive evolution of defense ability leads to diversification of prey species. Acta Biotheoretica, 2014, 62(2): 207-234. PDF 

[11] Jian Zu, Jinliang Wang. Adaptive evolution of attack ability promotes the evolutionary branching of predator species. Theoretical Population Biology, 2013, 89: 12-23. PDF

[10] Jian Zu, Yasuhiro Takeuchi. Adaptive evolution of anti-predator ability promotes the diversity of prey species: Critical function analysis. BioSystems, 2012, 109: 192-202. PDF

[9]  Jian Zu, Jinliang Wang and Yasuhiro Takeuchi. Coevolutionary dynamics of predator-prey interactions. International Journal of Biomathematics, 2012, 5 (3): 1-31 (1260015). PDF

[8]  Jian Zu, Kaifa Wang, Masayasu Mimura. Evolutionary branching and continuously stable coexistence of predator species: Critical function analysis. Mathematical Biosciences, 2011, 231: 210-224. PDF

[7]  Jian Zu, Masayasu Mimura, Yasuhiro Takeuchi. Adaptive evolution of foraging-related traits in a predator-prey community. Journal of Theoretical Biology, 2011, 268(1): 14-29. PDF

[6]  Jian Zu, Masayasu Mimura, Joe Yuichiro Wakano. The evolution of phenotypic traits in a predator-prey system subject to Allee effect. Journal of Theoretical Biology, 2010, 262(3): 528-543. PDF

[5]  Jian Zu, Wendi Wang, Yasuhiro Takeuchi, Bo Zu, Kaifa Wang. On evolution under symmetric and asymmetric competitions. Journal of Theoretical Biology, 2008, 254(2): 239-251. PDF 

[4] Jian Zu, Wendi Wang, Bo Zu. Evolutionary dynamics of prey-predator systems with Holling type II functional response. Mathematical Biosciences and Engineering, 2007, 4 (2): 221-237. PDF

[3]  Jian Zu, Wendi Wang. Evolutionary dynamics of predator-prey systems subject to Allee effects. Journal of Southwest University (Natural Science Edition), 2007, 29 (4): 14-21. 

[2] Jian Zu, Bo Zu, Gang Huang. Coevolution in a predator-prey system. Proceedings of the 7th Conference on Biological Dynamic System and Stability of Differential Equation, 2010, Volume I, 479-485. (CPCI)

[1] Jian Zu, Bo Zu. Evolutionary Branching and Evolutionarily Stable Coexistence of Competing Specie. Proceedings of the 5th International Congress on Mathematical Biology, 2011, Vol. 2: 36-44.

3. 微分动力系统与分支理论研究 

[4] Jian Zu. Global qualitative analysis of a predator–prey system with Allee effect on the prey species. Mathematics and Computers in Simulation, 2013, 94: 33-54. PDF

[3]  Jian Zu, Masayasu Mimura. The impact of Allee effect on a predator-prey system with Holling type II functional response. Applied Mathematics and Computation, 2010, 217(7): 3542-3556. PDF

[2] Junkang Tian, Dongsheng Xu, Jian Zu. Novel delay-dependent asymptotic stability criteria for neural networks with time-varying delays. Journal of Computational and Applied Mathematics, 2009, 228(1): 133-138. PDF

[1] 马楚焱, 祖建, 付清盼, 罗凌霄. 基于遗传神经网络模型的空气能见度预测. 环境工程学报, 2015, 9(4): 1905-1910.

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