Difference between revisions of "Quantifying dynamics of SARS-CoV-2 transmission suggests that epidemic control and avoidance is feasible through instantaneous digital contact tracing (Q4160)"
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(Created a new Item: Quantifying dynamics of SARS-CoV-2 transmission suggests that epidemic control and avoidance is feasible through instantaneous digital contact tracing, scholarly article published on March 12, 2020) |
(Created claim: mentions (P152): Contact tracing (Q4209)) |
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| + | We show that first-degree instantaneous contact tracing, informing users when they can move safely or when to seek medical help and avoid vulnerable individuals, has the potential to stop the spread of the epidemic if used by a sufficiently large number of people with reasonable fidelity. | ||||||||||||||
| Property / quote: We show that first-degree instantaneous contact tracing, informing users when they can move safely or when to seek medical help and avoid vulnerable individuals, has the potential to stop the spread of the epidemic if used by a sufficiently large number of people with reasonable fidelity. / rank | |||||||||||||||
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Latest revision as of 20:01, 26 March 2020
scholarly article published on March 12, 2020
| Language | Label | Description | Also known as |
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| English |
Quantifying dynamics of SARS-CoV-2 transmission suggests that epidemic control and avoidance is feasible through instantaneous digital contact tracing
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scholarly article published on March 12, 2020
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Statements
12 March 2020
0 references
We show that first-degree instantaneous contact tracing, informing users when they can move safely or when to seek medical help and avoid vulnerable individuals, has the potential to stop the spread of the epidemic if used by a sufficiently large number of people with reasonable fidelity.
0 references