Hysteresis loop of nonperiodic outbreaks of recurrent epidemics

Hengcong Liu; Muhua Zheng; Dayu Wu; Zhenhua Wang; Jinming Liu; Zonghua Liu

doi:10.1103/PhysRevE.94.062318

Hysteresis loop of nonperiodic outbreaks of recurrent epidemics

Hengcong Liu
, Muhua Zheng
, Dayu Wu
, Zhenhua Wang
, Jinming Liu
, Zonghua Liu

School of Physics and Electronic Science

East China Normal University

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Most of the studies on epidemics so far have focused on the growing phase, such as how an epidemic spreads and what are the conditions for an epidemic to break out in a variety of cases. However, we discover from real data that on a large scale, the spread of an epidemic is in fact a recurrent event with distinctive growing and recovering phases, i.e., a hysteresis loop. We show here that the hysteresis loop can be reproduced in epidemic models provided that the infectious rate is adiabatically increased or decreased before the system reaches its stationary state. Two ways to the hysteresis loop are revealed, which is helpful in understanding the mechanics of infections in real evolution. Moreover, a theoretical analysis is presented to explain the mechanism of the hysteresis loop.

Original language	English
Article number	062318
Journal	Physical Review E
Volume	94
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevE.94.062318
State	Published - 29 Dec 2016

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10.1103/PhysRevE.94.062318

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abstract = "Most of the studies on epidemics so far have focused on the growing phase, such as how an epidemic spreads and what are the conditions for an epidemic to break out in a variety of cases. However, we discover from real data that on a large scale, the spread of an epidemic is in fact a recurrent event with distinctive growing and recovering phases, i.e., a hysteresis loop. We show here that the hysteresis loop can be reproduced in epidemic models provided that the infectious rate is adiabatically increased or decreased before the system reaches its stationary state. Two ways to the hysteresis loop are revealed, which is helpful in understanding the mechanics of infections in real evolution. Moreover, a theoretical analysis is presented to explain the mechanism of the hysteresis loop.",

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AU - Wu, Dayu

AU - Wang, Zhenhua

AU - Liu, Jinming

AU - Liu, Zonghua

PY - 2016/12/29

Y1 - 2016/12/29

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Hysteresis loop of nonperiodic outbreaks of recurrent epidemics

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