DYNAMICS OF AN EPIDEMIC IN A CLOSED POPULATION

被引:2
|
作者
SVENSSON, A
机构
来源
ADVANCES IN APPLIED PROBABILITY | 1993年 / 25卷 / 02期
关键词
EPIDEMIC MODELS; COUNTING PROCESSES; MARTINGALE LIMIT THEOREMS; SIZE DISTRIBUTION;
D O I
10.2307/1427654
中图分类号
O21 [概率论与数理统计]; C8 [统计学];
学科分类号
020208 ; 070103 ; 0714 ;
摘要
A simple model for the intensity of infection during an epidemic in a closed population is studied. It is shown that the size of an epidemic (i.e. the number of persons infected) and the cumulative force of an epidemic (i.e. the amount of infectiousness that has to be avoided by a person that will stay uninfected during the entire epidemic) satisfy an equation of balance. Under general conditions, small deviances from this balance are, in large populations, asymptotically mixed normally distributed. For some special epidemic models the size of an asymptotically large epidemic is asymptotically normally distributed.
引用
收藏
页码:303 / 313
页数:11
相关论文
共 50 条
  • [41] A note on the effects of epidemic forecasts on epidemic dynamics
    Record, Nicholas R.
    Pershing, Andrew
    PEERJ, 2020, 8
  • [42] DYNAMICS OF AN EPIDEMIC MODEL WITH
    Liu, Jian
    Ding, Qian
    Guo, Hongpeng
    Zheng, Bo
    JOURNAL OF APPLIED ANALYSIS AND COMPUTATION, 2024, 14 (04): : 2317 - 2336
  • [43] Paradoxes of the Population Record of Closed Cities in the Soviet Union and Subsequent Urban Dynamics
    A. E. Raisikh
    Regional Research of Russia, 2024, 14 (Suppl 1) : S110 - S124
  • [44] Population dynamics of a parasite and hyperparasite in a closed system: Model analysis and parameter estimation
    Gubbins, S
    Gilligan, CA
    PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, 1996, 263 (1373) : 1071 - 1078
  • [45] The influence of Changing Social Conditions and Diet of Indigenous Population on the Dynamics of the ViluyEncephalomyelitis Epidemic Process
    Vladimirtsev, V. A.
    Sivtseva, T. M.
    Davydova, T. K.
    Osakovsky, V. L.
    Karganova, G. G.
    Platonov, F. A.
    YAKUT MEDICAL JOURNAL, 2015, (03): : 104 - 108
  • [46] Population dynamics of epidemic and endemic states of drug-resistance emergence in infectious diseases
    Knipl, Diana
    Rost, Gergely
    Moghadas, Seyed M.
    PEERJ, 2017, 5
  • [47] Threshold Conditions for a Non-Autonomous Epidemic System Describing the Population Dynamics of Dengue
    F. A. B. Coutinhoa
    M. N. Burattinia
    L. F. Lopeza
    E. Massada
    Bulletin of Mathematical Biology, 2006, 68 : 2263 - 2282
  • [48] Epidemic dynamics in a heterogeneous incompletely isolated population with allowance for seasonal variations in the infection rate
    A. I. Gerasimov
    V. N. Razzhevaikin
    Computational Mathematics and Mathematical Physics, 2008, 48 : 1406 - 1417
  • [49] DYNAMICS OF A MULTIGROUP SIRS EPIDEMIC MODEL WITH RANDOM PERTURBATIONS AND VARYING TOTAL POPULATION SIZE
    Liu, Qun
    Jiang, Daqing
    COMMUNICATIONS ON PURE AND APPLIED ANALYSIS, 2020, 19 (02) : 1089 - 1110
  • [50] Epidemic Dynamics in a Heterogeneous Incompletely Isolated Population with Allowance for Seasonal Variations in the Infection Rate
    Gerasimov, A. I.
    Razzhevaikin, V. N.
    COMPUTATIONAL MATHEMATICS AND MATHEMATICAL PHYSICS, 2008, 48 (08) : 1406 - 1417
12345