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N G Becker

Showing results (21-30 of 47) with videos related to

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Mathematical Biosciences|February 9, 1999
The effect of random vaccine response on the vaccination coverage required to prevent epidemicsN G Becker, D N Starczak
Mathematical Biosciences|February 1, 1994
A transmission model for HIV with application to the Australian epidemicN G Becker, L R Egerton
Biometrics|June 18, 1998
Estimating the transmission rate for a highly infectious diseaseN G Becker, A M Hasofer
Biostatistics (Oxford, England)|August 23, 2003
Inference for an epidemic when susceptibility variesP D O'Neill, N G Becker
Statistical Methods in Medical Research|May 8, 2001
Advances in medical statistics arising from the AIDS epidemicN G Becker, I C Marschner
Mathematical Biosciences|January 15, 1997
Optimal vaccination strategies for a community of householdsN G Becker, D N Starczak
American Journal of Epidemiology|March 1, 1983
Assessing the heterogeneity of disease spread through a communityN G Becker, J L Hopper
Statistics in Medicine|November 14, 1997
Estimating a delay distribution from incomplete data, with application to reporting lags for AIDS casesN G Becker, J S Cui
Public Health|September 27, 2005
Health inequalities across socio-economic groups: comparing geographic-area-based and individual-based indicatorsA E Walker, N G Becker
Euro Surveillance : Bulletin Europeen Sur Les Maladies Transmissibles = European Communicable Disease Bulletin|July 13, 2010
Type and quantity of data needed for an early estimate of transmissibility when an infectious disease emergesN G Becker, D Wang, M Clements
Pageof 5

Showing results (21-30 of 47) with videos related to

Sort By:
Pageof 5
Mathematical Biosciences|February 9, 1999
The effect of random vaccine response on the vaccination coverage required to prevent epidemicsN G Becker, D N Starczak
Mathematical Biosciences|February 1, 1994
A transmission model for HIV with application to the Australian epidemicN G Becker, L R Egerton
Biometrics|June 18, 1998
Estimating the transmission rate for a highly infectious diseaseN G Becker, A M Hasofer
Biostatistics (Oxford, England)|August 23, 2003
Inference for an epidemic when susceptibility variesP D O'Neill, N G Becker
Statistical Methods in Medical Research|May 8, 2001
Advances in medical statistics arising from the AIDS epidemicN G Becker, I C Marschner
Mathematical Biosciences|January 15, 1997
Optimal vaccination strategies for a community of householdsN G Becker, D N Starczak
American Journal of Epidemiology|March 1, 1983
Assessing the heterogeneity of disease spread through a communityN G Becker, J L Hopper
Statistics in Medicine|November 14, 1997
Estimating a delay distribution from incomplete data, with application to reporting lags for AIDS casesN G Becker, J S Cui
Public Health|September 27, 2005
Health inequalities across socio-economic groups: comparing geographic-area-based and individual-based indicatorsA E Walker, N G Becker
Euro Surveillance : Bulletin Europeen Sur Les Maladies Transmissibles = European Communicable Disease Bulletin|July 13, 2010
Type and quantity of data needed for an early estimate of transmissibility when an infectious disease emergesN G Becker, D Wang, M Clements
Pageof 5