Jane M. Heffernan

York University - Centre for Diseases Modeling (CDM)

4700 Keele Street

Toronto, Ontario M3J 1P3

Canada

SCHOLARLY PAPERS

3

DOWNLOADS

240

SSRN CITATIONS

1

CROSSREF CITATIONS

0

Scholarly Papers (3)

1.

Efficacy of 'Stay-at-Home' Policy and Transmission of COVID-19 in Toronto, Canada: A Mathematical Modeling Study

Number of pages: 26 Posted: 13 Oct 2020
York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM), Public Health Agency Canada - Public Health Risk Sciences Division, University of Toronto - Toronto Health Economics and Technology Assessment (THETA), York University - Centre for Diseases Modeling (CDM), City of Toronto - Toronto Public Health, City of Toronto - Toronto Public Health, City of Toronto - Toronto Public Health, York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM), University of Manitoba - Department of Mathematics, York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM), York University - Centre for Diseases Modeling (CDM) and York University - Centre for Diseases Modeling (CDM)
Downloads 123 (276,182)

Abstract:

Loading...

COVID-19, transmission model, household structure, stay-at-home policy, non-pharmaceutical interventions, reopen

2.

De-escalation by Reversing the Escalation with a Stronger Synergistic Package of Contact Tracing, Quarantine, Isolation and Personal Protection: Feasibility of Preventing a COVID-19 Rebound in Ontario, Canada, as a Case Study

Biology, Forthcoming
Number of pages: 15 Posted: 18 May 2020
York University - Laboratory for Industrial and Applied Mathematics, York University - Laboratory for Industrial and Applied Mathematics, York University, York University - Laboratory for Industrial and Applied Mathematics, York University, University of Cincinnati - Department of Mathematical Sciences, York University - Centre for Diseases Modeling (CDM), York University, Public Health Agency of Canada and York University - Laboratory for Industrial and Applied Mathematics
Downloads 64 (413,590)
Citation 1

Abstract:

Loading...

3.

Quantifying the Shift in Social Contact Patterns in Response to Non-Pharmaceutical Interventions

Number of pages: 25 Posted: 13 Oct 2020
York University - Laboratory for Industrial and Applied Mathematics, University of Cincinnati - Department of Mathematical Sciences, York University - Laboratory for Industrial and Applied Mathematics, York University - Laboratory for Industrial and Applied Mathematics, York University - Laboratory for Industrial and Applied Mathematics, York University - Laboratory for Industrial and Applied Mathematics, York University - Centre for Diseases Modeling (CDM), York University - Disaster & Emergency Management, University of Toronto - Department of Mathematics, Public Health Agency Canada - Public Health Risk Sciences Division and York University - Laboratory for Industrial and Applied Mathematics
Downloads 53 (452,615)

Abstract:

Loading...

social contact patterns, non-pharmaceutical interventions, COVID-19