[1] 宋倩倩,赵涵,方立群,刘玮,郑创,张勇*.新型冠状病毒肺炎的早期传染病流行病学参数估计研究.中华流行病学杂志, 2020, 41(04): 461-465.
(科协T1. 为密接者“14天隔离”防控政策提供了理论依据.)
[2] Lu QB, Zhang Y, et al. Epidemiological parameters of COVID-19 and its implication for infectivity among patients in China, 1 January to 11 February 2020. Eurosurveillance, 2020, 25(40).
(一区Top. 为将防控政策调整为“14+7天隔离”提供了理论依据.)
[3] Fang LQ, ..., Zhang Y,... , et al. Meteorological conditions and nonpharmaceutical interventions jointly determined local transmissibility of COVID-19 in 41 Chinese cities: A retrospective observational study. The Lancet Regional Health - Western Pacific, 2020, 100020.
(一区Top. 指出了低温、高湿、人流密集、市区是新冠高发主要因素.)
[4] Shi T. , Huan JX, Zhang Z, Fang LQ, Zhang Y. A spatiotemporal transmission simulator for respiratory infectious diseases and its application to covid-19. Infectious Disease Modelling, 2025, 10(4):1322-1333.
(一区Top. 精确模拟了新冠疫情在我国省级行政区域的时空扩散传播动态.)
[5] Wang, Zihan, Jin, Yu, ..., Zhang Yong*. The Impact of Vacations on the Transmission Dynamics of Influenza A (H1N1). Bull Math Biol 88, 37 (2026). https://doi.org/10.1007/s11538-026-01600-y.
(JCR Q2. 量化分析了学生停课对甲流疫情的影响.)
[6] Tao Shi, Junying Li, Yiting Luo, Zihan Wang, Yong Zhang*. Evaluation of effective reproduction number calculation method based on DISO framework. International Journal of Biomathematics (2026) 2650018. https://doi.org/10.1142/S179352452650018X.
(二区. 在DISO框架下对五种有效再生数计算方法进行了评估,发现 time-dependent 计算方法表现最优.)
