id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
cord-193893-rzurz5bj	Ma, Zhanshan	Spatiotemporal fluctuation scaling law and metapopulation modeling of the novel coronavirus (COVID-19) and SARS outbreaks	2020-03-08		.txt	text/plain	3683	200	48	Another TPL parameter (M0) (i.e., infection critical threshold) depends on virus kinds (COVID-19/SARS), time (disease-stages), space (regions) and public-health interventions (e.g., quarantines and mobility control). While TPL can be harnessed to investigate the spatiotemporal fluctuations of coronaviruses, specifically, the scaling (changes) law of coronaviruses infections over space and time, we also aim to understand the spread of the virus infections from both local contagion (endemic) and external migration (epidemic and pandemic) perspectives. Overall, this study sets two primary objectives: (i) to investigate the spatiotemporal fluctuation scaling law and (ii) to obtain an educated guess for the local contagion spread and global migration parameters of the COVID-19 infections. At the community level, the four Taylor's power law extensions (TPLE), can be used to measure the community spatial (temporal) heterogeneity ( on both the general principle of TPL (explained above) and system-or data-specific information (such as the biology of COVID or SARS).	./cache/cord-193893-rzurz5bj.txt	./txt/cord-193893-rzurz5bj.txt