Human Mobility-based Individual-level Epidemic Simulation Platform

Fan, Zipei1,2; Yang, Chuang2; Zhang, Zhiwen2; Song, Xuan1,2; Liu, Yinghao2; Jiang, Renhe1,2; Chen, Quanjun1,2; Shibasaki, Ryosuke2

2022-09-01

10.1145/3491063

ACM Transactions on Spatial Algorithms and Systems   影响因子和分区

2374-0353

2374-0361

COVID-19 has spread worldwide, and over 140 million people have been confirmed infected, over 3 million people have died, and the numbers are still increasing dramatically. The consensus has been reached by scientists that COVID-19 can be transmitted in an airborne way, and human-to-human transmission is the primary cause of the fast spread of COVID-19. Thus, mobility should be restricted to control the epidemic, and many governments worldwide have succeeded in curbing the spread by means of control policies like city lockdowns. Against this background, we propose a novel fine-grained transmission model based on realworld human mobility data and develop a platform that helps the researcher or governors to explore the possibility of future development of the epidemic spreading and simulate the outcomes of human mobility and the epidemic state under different epidemic control policies. The proposed platform can also support users to determine potential contacts, discover regions with high infectious risks, and assess the individual infectious risk. The multi-functional platform aims at helping the users to evaluate the effectiveness of a regional lockdown policy and facilitate the process of screening and more accurately targeting the potential virus carriers.

Epidemic control policy simulation human mobility simulation

ESCI

英语

第一 ; 通讯

Japan Society for the Promotion of Science, Japan's Ministry of Education, Culture, Sports, Science, and Technology (MEXT)[20K19782] ; Strategic International Collaborative Research Program (SICORP)[JPMJSC2104]

Remote Sensing

Remote Sensing

WOS:000885872900004

ASSOC COMPUTING MACHINERY

Web of Science

1.Southern Univ Sci & Technol, Shenzhen, Peoples R China
2.Univ Tokyo, Ctr Spatial Informat Sci, Kashiwa, Chiba, Japan

Fan, Zipei,Yang, Chuang,Zhang, Zhiwen,et al. Human Mobility-based Individual-level Epidemic Simulation Platform[J]. ACM Transactions on Spatial Algorithms and Systems,2022,8(3).

Fan, Zipei.,Yang, Chuang.,Zhang, Zhiwen.,Song, Xuan.,Liu, Yinghao.,...&Shibasaki, Ryosuke.(2022).Human Mobility-based Individual-level Epidemic Simulation Platform.ACM Transactions on Spatial Algorithms and Systems,8(3).

Fan, Zipei,et al."Human Mobility-based Individual-level Epidemic Simulation Platform".ACM Transactions on Spatial Algorithms and Systems 8.3(2022).