基本情况
教育经历:
09/2000-04/2003, 中国科学院数学与系统科学研究院数学所,获理学博士学位
指导教师:陈兰荪研究员
研究方向:动力系统、生物数学
数学软件:Maple, Matlab, XppAuto
博士论文:脉冲半动力系统及其在生物资源管理中的应用研究
09/1995-07/1998, 陕西师范大学数学系,获理学硕士学位
指导教师:陈菊芳教授
研究方向:动力系统、生物数学
硕士论文:时滞差分方程的持续生存与稳定性研究
09/1990-07/1993, 湖北民族学院数学系
工作经历:
07/2007-至今 教授:陕西师范大学
07/2013-01/2014 教育部公派访问学者,加拿大York大学,合作导师,Jianhong Wu.
01/2006-07/2007 博士后研究:Warwick systems biology center,The University of Warwick. Coventry, CV4 7AL UK
合作导师: Prof. David Rand.
研究方向: Mathematical analysis of network architecture: function, dynamics and noise。
10/2003-01/2006 博士后研究:Mathematics Institute ,The University of Warwick. Coventry, CV4 7AL UK
合作导师: Prof. David Rand.
研究方向: Mathematical analysis of network architecture: function, dynamics and noise。
代表性学术成果
部分会议邀请报告和主办会议:
1. 2009年6月14-17日,应邀参加浙江大学召开的国际生物数学年会上作40分钟大会特邀报告Joint Conference of the Society for Mathematical Biology and the Chinese Society for Mathematical Biology。 June 14-17, 2009 , Hangzhou , P.R. China. Impulsive Hybrid Systems for Integrated Pest/Disease Management.
2. 2010年5月30日-6月5日,应邀参加在法国波尔多举行的国际计算与种群动力系统大会, 并做一小时大会报告。The third Conference on Computational and Mathematical Population Dynamics, May 30th – June 5th 2010. France, Bordeaux.
3. 2010 December 15-19, 南京师范大学参加第二届中加气候变化对疾病流行的影响研究会议,并作40分钟大会邀请报告。Canada-China International Conference on《The Dynamics of Climate Impact and Infectious Diseases 》 Dec. 15-18, 2010,Nanjing Normal University, Nanjing, China; 报告题目:Fengxiao for mitigating the 2009 A/H1N1 pandemic in Xi’an city, China.
4. 2011年10月13-16日,四川大学参加中国数学会学术年会,并作四十分钟分会邀请报告。
5. 2011年6月3-5日,南京理工大学参加第五届国际生物数学大会,并作大会40分钟邀请报告。
6. 2013年5月28日-6月2日: The fourth Conference on Computational and Mathematical Population Dynamics, May 28th – June 2nd 2013. Taiyuan, China. Section co-organizer: Modeling of infectious diseases.
7. 2015年8月25-8月30日,中日韩三国生物数学会议(日本京都),40分钟大会特邀报告(State-dependent feedback control model with application to integrated pest management),Evaluating the effect of interventions on infectious disease control 专题讨论组织者,25分钟报告:Modelling media impacts on the spread of infectious disease with media coverage and hospital notifications.
8. 2015年12月15日至12月16日,亚洲传染病模型研究在政策决策中的应用国际会议(International meeting on the policy-relevant applications of infectious disease models in Asia),日本东京大学Ito国际研究中心举行, “Policy Related Infectious Disease Modeling Studies in our Group: Opportunities and Challenges”。大会特邀报告
9. 2016年7月17-20日,中国生物数学学会年会(扬州大学),生态系统中的悖论与药物毒理效应,40分钟分组大会报告。
10. 2017年5月30-6月2号,第三届工程与计算数学国际学术会议(ECM2017)香港理工大学,报告题目: “Dengue control: modeling and data analysis”
11. 2017年7月22-25日,中国生物数学年会,学术报告:Measuring the impact of air pollution on respiratory infection risk in China.
12. 2018年11月8-11日,举办生物数学与医学数据分析会议,参会人数240人,30个40分钟大会邀请报告。
13. 2019年?6月8日至6月10日,杭州师范大学,第十三届应用动力系统国际会议,大会分组报告:Qualitative techniques of impulsive dynamical system with application.
14. 2019年8月23-26日, 北京中日韩印国际生物数学会议, 大会特邀报告:A general model of hormesis in biological systems and its application to pest management.
15. 2019年5月6-11日在山西大学召开《2019年中-加传染病建模中数据处理方法讲习班暨研讨会》:主讲人(四个小时):Modeling of infectious diseases, data analyses and public health decision making.
16. 2020年4月13日,西北天元中心,邀请报告:数学模型助力COVID-19传染病疫情防控。
17. 2020年8月20日,中加传染病数学模型,一小时邀请报告:Early warning and long-term prediction of COVID-19 infection in China: model/data - based analyses.
18. 2020年11月12-13日,上海生命科学研究院,数学生物学发展战略研究与学术交流研讨会,邀请报告:生物数学进阶---揭示本质、探索未知、预测未来。
部分论文著作
(一)理论生态学
1. 唐三一, Yanni Xiao, Permanence in Kolmogorov-type Systems of Delay Difference Equations. J. Diff. Equ.Appl.2001,7(2):167-181.
2. 唐三一, Lansun Chen, Global qualitative analysis for a ratio-dependent predator-prey model with delay. J. Math. Anal. Appl.2002,266:402-419.
3. 唐三一, Lansun Chen, Global Attractivity in a "Food-Limited" Population Model with Impulsive Effects. J. Math. Anal. Appl.2004, 292: 211-221.
4. 唐三一, Lansun Chen, The effect of seasonal harvesting on stage-structured population models. J. Math. Biol., 2004, 48: 357-374.
5. 唐三一, Robert A.Cheke, Yanni Xiao, Optimal impulsive harvesting on non-autonomous Beverton-Holt difference equations. TMA..2006,65:2311-2341.
6. 唐三一, Xiao Yanni, Robert A. Cheke. Multiple attractors of host–parasitoid models with integrated pest management strategies: Eradication, persistence and outbreak. Theor. Popul. Biol. 2008,73:181-197.
7. 唐三一, Xiao, Y. & Cheke, R.A. ,Effects of Predator and Prey Dispersal on Success or Failure of Biological Control. Bull. Math. Biol.2009, 71: 2025–2047.
8. Juhua Liang, 唐三一, Robert A. Cheke. Pure Bt-crop and mixed see d sowing strategies for optimal economic profit in the face of pest resistance to pesticides and Bt-corn. Applied Mathematics and Computation 2016,283: 6–21.
9. Juhua Liang , Yaohua Zhu, Changcheng Xiang, 唐三一. Travelling waves and paradoxical effects in a discrete-time growth-dispersal model. Applied Mathematical Modelling 2018, 59 :132–146.
(二)脉冲动力系统与害虫综合控制
1. 唐三一, Lansun Chen, Density-dependent birth rate, birth pulses and their population dynamic consequences. J. Math. Biol. 2002,44(2):185-199.
2. 唐三一, Lansun Chen, Multiple Attractors in Stage-structured Population Models with Birth Pulses. Bull. Math. Biol. 2003, 65: 479-495.
3. 唐三一, Yanni Xiao, Lansun Chen, R.A. Cheke, Integrated pest management models and their dynamical behavior. Bull. Math. Biol., 2005,67:115-135.
4. 唐三一, Robert A. Cheke, Stage-dependent impulsive models of Integrated Pest Management (IPM) strategy and their dynamic consequences. J. Math Biol., 2005, 50:257-292.
5. 唐三一, Robert A. Cheke. Models for integrated pest control and their biological implications. Math. Biosci. 2008,215:115-125.
6. 唐三一, Tang G.Y., Robert A. Cheke. Optimum timing for integrated pest management: Modelling rates of pesticide application and natural enemy releases. J. Theor. Biol. 2010,264:623-638.
7. 唐三一*, Liang J.H., Tan Y.S., Cheke R.A. Threshold conditions for integrated pest management models with pesticides that have residual effects, J. Math. Biol. 2013, 66: 1-35.
8. Liang J.H., 唐三一, Nieto J., Cheke R.A. Analytical methods for detecting pesticide switches with evolution of pesticide resistance. Math. Biosci. 2013, 245 : 249–257.
9. Liang, J., 唐三一, Cheke, R.A. , Wu, J. Adaptive release of natural enemies in a pest-natural enemy system with pesticide resistance. Bull. Math. Biol. 2013,75: 2167-2195.
10. 唐三一, Biao Tang, Aili Wang, Yanni Xiao, Holling II predator-prey impulsive semi-dynamic model with complex Poincare map. Nonlinear Dynamics, 2015, DOI 10.1007/s11071-015-2092-3.
11. Qianqian Zhang, Biao Tang, 唐三一. Vaccination threshold size and backward bifurcation of SIR model with state-dependent pulse control. J. Theor. Biol. 2018,455 : 75–85.
12. Qianqian Zhang, Biao Tang, Tianyu Cheng and 唐三一. Bifurcation analysis of a generalized impulsive Kolmogorov model with applications to pest and disease control. SIAM J. Appl. Math. 2020,4:1796-1819.
(三)非光滑Filippov系统与应用
1. 唐三一, Liang, J.H., Xiao Y. , Cheke, R.A. Sliding bifurcations of Filippov two stage pest control models with economic thresholds. SIAM J. Appl. Math.,2012, 72(4): 1061-1080
2. 唐三一, Xiao Y., Wang, N. & Wu, H. Piecewise HIV virus dynamic model with CD4 T cell count guided therapy: I. J. Theor. Biol. 2012, 308: 123-134.
3. 唐三一, Liang J.H.. Global qualitative analysis of a non-smooth Gause predator–prey model with a refuge. Nonlinear Analysis TMA. 2013, 76: 165-180.
4. 唐三一, Tang G.Y., Qin W.J. Codimension-1 Sliding Bifurcations of a Filippov Pest Growth Model with Threshold Policy. International Journal of Bifurcation and Chaos,2014,24: 10 (2014) 1450122.
(四)传染病动力学与突发传染病防控
1. 唐三一, Xiao Y. et al.. Campus quarantine (Fengxiao) for curbing emergent infectious diseases: Lessons from mitigating A/H1N1 in Xi’an, China. J. Theor. Biol. 2012, 295:47-58.
2. Biao Tang, Xia Wang, Qian Li, Nicola Luigi Bragazzi, 唐三一, Yanni Xiao and Jianhong Wu. Estimation of the Transmission Risk of the 2019-nCoV and Its Implication for Public Health Interventions. Journal of Clinical Medicine. 2020. doi:10.3390/jcm9020462.
3. Biao Tang, Fan Xia, 唐三一, Nicola Luigi Bragazzi, Qian Li, Xiaodan Sun, Juhua Liang, Yanni Xiao, Jianhong Wu. The effectiveness of quarantine and isolation determine the trend of the COVID-19 epidemics in the final phase of the current outbreak in China. International Journal of Infectious Diseases. Volume 2020,96:636-647. https://doi.org/10.1016/j.ijid.2020.03.018.
4. 唐三一、肖燕妮、彭志行、沈洪兵. 新型冠状病毒肺炎疫情预测建模、数据融合与防控策略分析. 中华流行病学杂志. 41卷4期.2020:480-484.
5. Qinling Yan, Yingling Tang, Dingding Yan, Jiaying Wang, Linqian Yang, Xinpei Yang, Sanyi Tang*. Impact of media reports on the early spread of COVID-19 epidemic. Journal of Theoretical Biology. Volume 502. (2020). https://doi.org/10.1016/j.jtbi.2020.110385.
6. 王霞, 唐三一, 陈勇, 冯晓梅, 肖燕妮, 徐宗本新型冠状病毒肺炎疫情下武汉及周边地区何时复工? 数据驱动的网络模型分析. 中国科学:数学. 50卷7期. 2020, 969-978.
7. 唐三一、唐彪、Nicola Luigi Bragazzi、夏凡、李堂娟、何莎、任鹏宇、王霞、向长城、彭志行、吴建宏、肖燕妮. 新型冠状病毒肺炎疫情数据挖掘与离散随机传播动力学模型分析. 中国科学:数学. 50卷8期 2020:1071-1086.
(五)药物动力学与药物毒理效应
1. 唐三一,Yanni Xiao, One-compartment model with Michaelis-Menten elimination kinetics and therapeutic window: an analytical approach. J. Pharmacokin. Biopharm. 2007,34: 807–827.
2. 唐三一, Liang J, Xiang C, Xiao Y, Wang X, Wu J, Li G, Cheke* RA. A general model of hormesis in biological systems and its application to pest management. J. R. Soc. Interface 2019,16: 20190468. http://dx.doi.org/10.1098/rsif.2019.0468.
(六)随机模型与数据分析
1. 唐三一, Elizabeth A. Heron. Bayesian inference for a stochastic logistic model with switching points. Ecol. Mod. 2008, 219:153-169.
2. Qinling Yan, 唐三一, Sandra Gabriele, Jianhong Wu, Media coverage and hospital notifications: Correlation analysis and optimal media impact duration to manage a pandemic. J. Theor. Bio. 2016, 390:1–13.
3. Yan Qinling, 唐三一, Xiao Yanni. Impact of individual behaviour change on the spread of emerging infectious diseases. Statistics in Medicine. 2017:1–22.
4. 唐三一, Qinling Yan, Wei Shi, Xia Wang, Xiaodan Sun, Pengbo Yu, Jianhong Wu, Yanni Xiao*. Measuring the impact of air pollution on respiratory infection risk in China, Environmental Pollution, 2018, 232: 477-486.
5. Sha He, 唐三一, Yanni Xiao, Robert A. Cheke. Stochastic Modelling of Air Pollution Impacts on Respiratory Infection Risk. Bull. Math. Biol. 2018,80:3127–3153.
6. Sha He, 唐三一, Weiming Wang. A stochastic SIS model driven by random diffusion of air pollutants. Physica A 2019, 532:121759.
(七)蚊媒疾病控制
1. Zhang Xianghong, 唐三一, Robert A. Cheke, Birth-pulse models of Wolbachia-induced cytoplasmic incompatibility in mosquitoes for dengue virus control. Nonlinear Analysis: Real World Applications 2015, 22: 236–258.
2. Xianghong Zhang, 唐三一, Robert A. Cheke, Models to assess how best to replace dengue virus vectors with Wolbachia infected mosquito populations. Math. Biosci. 2015, 269: 164–177
3. Zhang X.H. 唐三一et al. Modeling the Effects of Augmentation Strategies on the Control of Dengue Fever with an Impulsive Differential Equation. Bull. Math. Biol. 2016,78 :1968–2010.
4. X. Wang, 唐三一, Robert A. Cheke. A stage structured mosquito model incorporating effects of precipitation and daily temperature fluctuations. J. Theor. Biol. 2016, 411: 27–36
5. Sha He, Xianghong Zhang, Juhua Liang, 唐三一. Multiscale modelling the effects of CI genetic evolution in mosquito population on the control of dengue fever. Scientific Reports, 2017(7)13895:1-15.
6. Xianghong Zhang, 唐三一, Qiyong Liu, Robert A. Cheke, Huaiping Zhu.Models to assess the effects of non-identical sex ratio augmentations of Wolbachia-carrying mosquitoes on the control of dengue disease. Math. Biosci. 2018, 299: 58-72.
(八)生物信息学与系统生物学
1. Akman, O.E., Locke, J.C.W., 唐三一, Carré, I., Millar, A. J., Rand* D. A. Isoform switching facilitates period control in the Neurospora crassa circadian clock. Mol. Sys. Biol. 2008,4:1-11.
2. Finkenstadt B., Heron, E.A., Komorowski, M., Edwards, K., 唐三一, Harper C.V. et al., Reconstruction of transcriptional dynamics from gene reporter data using differential equations. Bioinformatics, 2008.
(九)本科生论文
1、 赵吴琼,李小玲,杨丽,李凡,韩菲尔,唐三一. H7N9禽流感发病率主要影响因素分析,数学的实践与认识, 2018,48:188-200.
2、 刘洋,张志琳,唐三一. 基于CD4细胞计数的HIV仓室模型与数据分析,数学的实践与认识, 2020,50(1):188-200.
(十)著作
1. 唐三一, 肖燕妮,《单种群生物动力系统》, 科学出版社出版, 2008。
2. 肖燕妮,周义仓,唐三一,《生物数学原理》,西安交通大学出版社,2012。
3. 陆征一、王稳地主编《生物数学前沿》,完成该书第八章:基因调控网络模型,2008(6): P:114-138。
4. 唐三一,肖燕妮,梁菊花,王霞 《生物数学》,科学出版社,2019。
教育科研项目
1、2009.01-2011.12:国家自然科学基金,10871122(负责人),混合生物动力系统的研究及其应用,27万元
2、2009.01-2010.12:教育部留学回国基金,(负责人),基因调控网络的稳定性与重构研究,2万元
3、2008.10-2010.12:国家科技重大专项,2008ZX10001-003(参与),“我国艾滋病流行规律、疫情评估和预测方法研究”,95.5万元
4、2011.01-2013.12:中央高校重点基金特别支持项目,GK201003001(负责人),长潜伏期传染病的疫情评估与控制研究,15万元
5、2012.01-2015.12:国家自然科学基金,11171199(负责人),综合害虫治理与Bt作物抗性管理的数学模型研究,46万元
6、2012.01-2012.12:国家自然科学基金国际合作项目,NSFC-NIH (81161120403) (负责人),AIDS研究中混合微分方程模型的分析和参数确定方法,28万元
7、2012.01-2015.12:国家科技重大专项,2012ZX10001001-009( 参与),“我国艾滋病流行趋势、疫情评估和预测数学模型研究”,94.3万元
8、2013.01-2013.12:中央高校重点基金特别支持项目,GK201305010(负责人),非光滑动力系统理论及其应用研究,6万元
9、2014.01-2016.12:中央高校创新团队项目,GK201401004(负责人),数学物理中的反问题,30万元
10、2015.01-2018.12:国家自然科学基金,11471201(负责人),蝗虫型变的非光滑时空动力学模型与数据验证研究,68万
11、2017.01-2021.12:国家自然科学基金重点项目,11631012(第二参与人),典型疾病多尺度生物动力系统与数据分析,245万元
12、2018.01-2021.12:国家自然科学基金面上项目,61772017(负责人),雾霾与典型疾病复杂关联的统计计算与动力学模型研究,51万元
13、2018.01-2023.12:获得陕西省科技创新领军人才称号,100万元
14、2021.01-2026.12:国家自然科学基金重点项目,12031010(负责人),新发重大传染病预测预警系统构建和防控措施评估研究,248万元
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