王金良

黑龍江大學數學科學學院副教授

黑龍江大學數學科學學院副教授,碩士生導師。主要研究領域:動力系統,微分方程生物數學

研究領域


應用動力系統,數學流行病學,生物數學,種群動力學

教育經歷


2008年09月--2011年11月哈爾濱工業大學基礎數學專業,獲得理學博士學位,導師為劉勝強教授。
2005年09月--2008年07月 黑龍江大學基礎數學專業,獲得理學碩士學位,導師為曹重光教授。
2001年09月--2005年07月 哈爾濱師範大學數學與應用數學專業,獲得理學學士學位。

工作經歷


2014年09月-- 至今 黑龍江大學數學科學學院副教授。
2013年07月-- 至今 黑龍江大學數學科學學院碩士生導師。
2011年12月-- 至今 黑龍江大學數學科學學院講師。

學術交流經歷


2014年9月,加拿大西安大略大學應用數學系,訪問學者,合作導師:鄒幸福教授。

科研論文


[1]Jinliang Wang*, Shengqiang Liu and Yasuhiro Takeuchi, Threshold dynamics in a periodic sveir epidemic model, International Journal of Biomathematics, 4(4), (2011),493-509.
[2]Jinliang Wang*, Gang Huang, Yasuhiro Takeuchi and Shengqiang Liu, Sveir epidemiological model with varying infectivity and distributed delays, Mathematical Biosciences and Engineering, 8(3), (2011), 875-888.
[3]Jinliang Wang*, Gang Huang and Yasuhiro Takeuchi, Global asymptotic stability for HIV-1 dynamics with two distributed delays, Mathematical Medicine and Biology, 29(3), (2012), 283-300. (SCI, 2012IF 2.412)
[4]Jinliang Wang*, Shengqiang Liu, Baowen Zheng and Yasuhiro Takeuchi, Qualitative and bifurcation analysis using an SIR model with a saturated treatment function, Mathematical and Computer Modelling, 55, (2012), 710-722.
[5]Jinliang Wang* and Lijuan Guan, Global stability for a HIV-1 infection model with cell-mediated immune response and intracellular delay, Discrete and Continuous Dynamical Systems Series B, 17(1), (2012), 297-302.
[6]Jinliang Wang*, Yasuhiro Takeuchi and Shengqiang Liu, A multi-group sveir epidemic model with distributed delay and vaccination,International Journal of Biomathematics, 5(3), (2012), 1260001.
.[7] Jian Zu*, Jinliang Wang and Yasuhiro Takeuchi, Coevolutionary dynamics of predator-prey interactions, International Journal of Biomathematics, 5(3), (2012),1260015.
[8]Jinliang Wang*, Jian Zu, Xianning Liu, Gang Huang and Jimin Zhang, Global dynamics of a multi-group epidemic model with general relapse distribution and nonlinear incidence rate, Journal of Biological Systems, 20(3), 2012, 235-258.
[9]Jimin Zhang, Xiaoyuan Chang* and Jinliang Wang, Existence and robustness of nonuniform (h,k,\mu,\nu)-dichotomies for nonautonomous impulsive differential equations, Journal of Mathematical Analysis and Applications, 400, (2013), 710-723.
[10]Jinliang Wang*, Xinxin Tian,Global stability of a delay differential equation of hepatitis B virus infection with immune response, Electronic Journal of Differential equations, Vol. 2013 (2013), No. 94, pp. 1-11.
[11]Ling Zhang, Jingmei Pang and Jinliang Wang*, Stability analysis of a multi-group epidemic model with general exposed distribution and nonlinear incidence rates, Abstract and Applied Analysis, 2013 (2013), Article ID 354287, 11 pages.
[12]Jian Zu* and Jinliang Wang*, Adaptive evolution of attack ability promotes the evolutionary branching of predator species, Theoretical Population Biology, 89, (2013), 12-23.
[13]Zhenjie Liu*, Jinliang Wang, Yalan Xu and Guoqiang Li, Dynamic analysis of an SIR model with stochastic perturbations, International Journal of Biomathematics, 6(6), 2013,1350041, 15 pages, DOI: 10.1142/S1793524513500411.
[14]Jinliang Wang*, Jingmei Pang and Toshikazu Kuniya, A note on global stability for malaria infections model with latencies, Mathematical Biosciences and Engineering, 11(4), (2014), 995-1001.
[15]Nan Wang, Jingmei Pang and Jinliang Wang*, Stability analysis of a multi-group SEIR epidemic model with general latency distributions, Abstract and Applied Analysis, 2014 (2014), Article ID 740256, 8 pages.
[16]Jinliang Wang*, Jingmei Pangand Xianning Liu, Modeling diseases with relapse and nonlinear incidence of infection: a multi-group epidemic model, Journal of Biological Dynamics, 8 (1), (2014), 99-116.
[17]Jian Zu*, Jinliang Wang* and Jianqiang Du, Adaptive evolution of defense ability leads to diversification of prey species, Acta Biotheoretica, 62(2), (2014), 207-234.
[18]Jinliang Wang,Jingmei Pang,Toshikazu Kuniya and Yoichi Enatsu*, Global threshold dynamics in a five-dimensional virus model with cell-mediated, humoral immune responses and distributed delays, Applied Mathematics and Computation, 241 (2014),298-316.
[19]Haitao Song*, Shengqiang Liu, Weihua Jiang and Jinliang Wang, Global stability and periodic oscillations for an SIV infection model with immune response and intracellular delays, Applied Mathematical Modelling,38(24) (2014), 6108-6121.
[20]Gang Huang,Jinliang Wang* and Jian Zu, Global dynamics of multi-group dengue disease model with latency distributions, Mathematical Methods in the Applied Sciences, 38(13) (2015),2703-2718.
[21]Xinxin Tian and Jinliang Wang*,Stability analysis for viral infection model with multitarget cells, Beddington-DeAngelis functional response and humoral immunity, Discrete Dynamics in Nature and Society, 2015 (2015), Article ID 654507, 11 pages.
[22]Jinliang Wang*, Xianning Liu, Jingmei Pang and Dongmei Hou, Global dynamics of a multi-group epidemic model with general exposed distribution and relapse, Osaka Journal of Mathematics, 52 (2015), 117-138.
[23]Jinliang Wang and Shengqiang Liu*, The stability analysis of a general viral infection model with distributed delays and multi-staged infected progression, Communications in Nonlinear Science and Numerical Simulation, 20(1), (2015), 263-272.
[24]Yoshiaki Muroya*,Toshikazu Kuniya andJinliang Wang,Stability analysis of a delayed multi-group SIS epidemic model with nonlinear incidence rates and patch structure,Journal of Mathematical Analysis and Applications,425 (2015), 415-439.
[25]Lili Liu, Jinliang Wang, Xianning Liu*, Global stability properties for an SEIR epidemic model with age-dependent latency and relapse,Nonlinear Analysis: Real World Applications, 24 (2015), 18-35.
[26]Jinliang Wang*, Ran Zhang and Toshikazu Kuniya, The stability analysis of an SVEIR model with continuous age-structure in the exposed and infectious classes, Journal of Biological Dynamics,9(1) (2015), 73-101. (SCI, 2014IF 1.033)
[27]Jinliang Wang, Ran Zhang and Toshikazu Kuniya*, Mathematical analysis for an age-structured HIV infection model with saturation infection rate,Electronic Journal of Differential Equations,2015 (33), (2015), 1-19.
[28]Jinliang Wang,Yoshiaki MuroyaandToshikazu Kuniya*,Global stability of a time-delayed multi-group SIS epidemic model with nonlinear incidence rates and patch structure, The Journal of Nonlinear Science and Applications, 8(5) , (2015), 575-599.
[29]Jinliang Wang*, Jiying Lang, Xianning Liu, Global dynamics for viral infection model with Beddington-DeAngelis functional response and an eclipse stage of infected cells,Discrete and Continuous Dynamical Systems Series B,20(9) , (2015), 3215-3233.
[30]Jinliang Wang, Ran Zhang and Toshikazu Kuniya*, Global dynamics for a class of age-infection HIV models with nonlinear infection rate, Journal of Mathematical Analysis and Applications, 432 (2015), 289-313.
[31]Jinliang Wang, Kaifa Wang*, Zhichao Jiang,Dynamical behaviors of an HTLV-I infection model with intracellular delay and immune activation delay, Advances in Difference Equations, 2015:243, (2015).
[32]Yoichi Enatsu, Jinliang Wang, Toshikazu Kuniya, Effect of cell-mediated, humoral immune responses on global dynamics of a delayed virus infection model, Qualitative theory of ordinary differential equations in real domains and its applications (Kyoto, 2014), RIMS Kokyuroku, 1959 (2015), 83-107.
[33]Feng Li and Jinliang Wang*, Analysis of an HIV infection model with logistic target-cell growth and cell-to-cell transmission, Chaos,Solitons&Fractals, 81 (2015) , 136-145.
[34]Jinliang Wang, Hongying Shu*, Global dynamics of a multi-group epidemic model with latency, relapse and nonlinear incidence rate, Mathematical Biosciences and Engineering,13(1) (2016) , 209-225.
[35]Jinliang Wang*, Ran Zhang and Toshikazu Kuniya, A note on dynamics of an age-of-infection cholera model, Mathematical Biosciences and Engineering,13(1) (2016) , 227-247.
[36]Jinliang Wang, Xinxin Tian and Xia Wang*, Stability analysis for delayed viral infection model with multitarget cells and general incidence rate, International Journal of Biomathematics,9(1), (2016),1650007 (21pages).
[37]Jinliang Wang and Xianning Liu*, Modeling diseases with latency and nonlinear incidence rates: global dynamics of a multi-group model, Mathematical Methods in the Applied Sciences.
[38]Jinliang Wang, Jiying Lang and Feng Li*,Constructing Lyapunov functionals for a delayed viral infection model with multitargetcells, nonlinear incidence rate, state-dependent removal rate,The Journal of Nonlinear Science and Applications,9 (2016), 524-536.
[39]Haitao Song*, Jinliang Wang and Weihua Jiang, Global dynamics in a multi-group epidemic model for disease with latency spreading and nonlinear transmission, Journal of Applied Analysis and Computation,6(1) (2016), 47-64.

出版著作


《數學物理方程》, 2014.06, 黑龍江大學出版社

科研項目


1.國家自然科學基金天元基金項目,項目編號:11226255,空間異質流行病模型的Lyapunov穩定性研究, 2013.01--2013.12.
2.省教育廳科學技術研究項目面上項目,項目編號:12531495,白血病病毒感染模型的動力學性質研究, 2013.1—2014.6.
3.國家自然科學基金青年基金項目,項目編號:11401182,年齡結構的傳染病模型的全局性態研究, 2015-01--2017-12.
4.省自然科學基金面上項目,項目編號:A201415,多族群傳染病模型的Lyapunov函數構造及穩定性分析, 2014.07--2016.07.
5.中國博士后科學基金第55批面上資助,項目編號:2014M552295,具有年齡結構的傳染病模型的穩定性研究, 2014.05—2015.03.
6.2014年重慶市博士后科研項目特別資助,項目編號:Xm2014024,年齡結構傳染病模型的建模及穩定性研究, 2014.7--2015.7.
7.黑龍江大學青年科學基金項目, 2013.1-2013.12.
8.黑龍江大學傑出青年科學基金項目, 2015.1-2017.12.
參與的科研項目:
9.國家自然科學基金面上項目(協作),項目編號:11471089,流動人口對新興傳染病防控影響的數學建模與研究, 2015.01—2018.12.
10.國家自然科學基金青年基金項目,項目編號:11201128,非一致雙曲測度鏈動力系統穩定性的若干問題, 2013-01—2015-12.
11.省自然科學基金面上項目,項目編號:A20121,某些分段連續型偏微分方程的數值分析, 2013.01-2015.12.
人才基金情況:
12. 2013年黑龍江省地方屬本科高校戰略後備人才出國研修項目, 2014.9--2015.8.
13. 2015年黑龍江省普通本科高等學校青年創新人才培養計劃,2015.6--2017.6.

組織會議


1.Local Organizer, International Workshop on Biomathematics Modelling and Its Dynamicl Analysis, Heilongjiang University, Harbin, China , Jan. 11—13, 2014.
2.Co-organizer, Mini-Symposium "Lyapunov Function Method in Mathematical Biology" in 8th International Congress on Industrial and Applied Mathematics (ICIAM 2015), Beijing, China, AUG. 11-14, 2015.
3.Local Organizer, The Second International Workshop on Biomathematics Modelling and Its Dynamicl Analysis, Heilongjiang University, Harbin, China , AUG. 15—17, 2015.