Schematic representation of the study method.

Practice of epidemiology infection in social networks: Using network analysis to identify high-risk individuals

R. M. Christley
G. L. Pinchbeck
R. G. Bowers
D. Clancy
N. P. French
R. Bennett
J. Turner

September 2016

Simulation studies using susceptible-infectious-recovered models were conducted to estimate individu...

Epidemics simulations on the “Dynamic Romantic network”.

Alexsandro M. Carvalho (297159)
Sebastián Gonçalves (297160)

February 2013

(A) Final fraction of non-infected subjects as a function of the infective time and the infecti...

Summary of the parameters used in simulations.

Martial L. Ndeffo Mbah (326538)
Jingzhou Liu (115526)
Chris T. Bauch (119485)
Yonas I. Tekel (326539)
Jan Medlock (42455)
Lauren Ancel Meyers (27605)
Alison P. Galvani (42462)

February 2013

*For each network structure, transmission probability was chosen so as to ensure that the average...

Epidemic simulation of the SIR model in different topologies.

Alexsandro M. Carvalho (297159)
Sebastián Gonçalves (297160)

February 2013

Watts-Strogatz, Romantic, and fully connected networks. Results for (A) time to the epidemic peak...

Final size and duration of SIR epidemics using the high school relationships network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Final size of SIR epidemics using HS75 network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Final size and epidemic duration of SIR epidemics using PWID network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Comparing the epidemic extent for different choices of network data for the Project 90 data set.

Nicholas W. Landry (14486104)
jimi adams (6079442)

January 2023

(a) A network visualization of the Project 90 data set. The dashed lines are not exhaustive, but ill...

Simulation results for the co-evolution of epidemic spreading and vaccine uptake behavior in Erdős-Rényi networks.

Anupama Sharma (482209)
Shakti N. Menon (707421)
V. Sasidevan (6728927)
Sitabhra Sinha (150529)

May 2019

(a) A sample time series showing the evolution of S, I, R and V for a simulated epidemic with β = 0....

Epidemic duration of SIR epidemics using HS75 network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Parameterisation of Keeling’s network generation algorithm

Badham, J
Abbass, H
Stocker, R

October 2017

Simulation is increasingly being used to examine epidemic behaviour and assess potential management ...

Additional file 2 of High-resolution epidemic simulation using within-host infection and contact data

Van Kinh Nguyen (3609323)
Rafael Mikolajczyk (43665)
Esteban Abelardo Hernandez-Vargas (5526749)

July 2018

Figure S2. Case-fatality rate in different vaccination schemes. Simulations of a network of size ten...

A survey of epidemiological modeling on networks and investigation of the relationship between the fraction of epidemics that take-off and the endemic level in a network

Selbach-Allen, Megan

The basic reproduction number, R0, is an important quantity in disease modelling. While it is well d...

Towards inferring network properties from epidemic data

Istvan Z Kiss (10582742)
Luc Berthouze (4461307)
Wasiur R KhudaBukhsh (16294496)

January 2024

Epidemic propagation on networks represents an important departure from traditional mass-action mode...

A comparison of the theoretical and the simulated epidemic size and threshold.

Yong Min (220928)
Xiaogang Jin (170080)
Ying Ge (175278)
Jie Chang (378968)

February 2013

The curves depict the average epidemic size as a function of the external transmission rates in t...

Practice of epidemiology infection in social networks: Using network analysis to identify high-risk individuals

R. M. Christley
G. L. Pinchbeck
R. G. Bowers
D. Clancy
N. P. French
R. Bennett
J. Turner

September 2016

Simulation studies using susceptible-infectious-recovered models were conducted to estimate individu...

Epidemics simulations on the “Dynamic Romantic network”.

Alexsandro M. Carvalho (297159)
Sebastián Gonçalves (297160)

February 2013

(A) Final fraction of non-infected subjects as a function of the infective time and the infecti...

Summary of the parameters used in simulations.

Martial L. Ndeffo Mbah (326538)
Jingzhou Liu (115526)
Chris T. Bauch (119485)
Yonas I. Tekel (326539)
Jan Medlock (42455)
Lauren Ancel Meyers (27605)
Alison P. Galvani (42462)

February 2013

*For each network structure, transmission probability was chosen so as to ensure that the average...

Epidemic simulation of the SIR model in different topologies.

Alexsandro M. Carvalho (297159)
Sebastián Gonçalves (297160)

February 2013

Watts-Strogatz, Romantic, and fully connected networks. Results for (A) time to the epidemic peak...

Final size and duration of SIR epidemics using the high school relationships network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Final size of SIR epidemics using HS75 network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Final size and epidemic duration of SIR epidemics using PWID network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Comparing the epidemic extent for different choices of network data for the Project 90 data set.

Nicholas W. Landry (14486104)
jimi adams (6079442)

January 2023

(a) A network visualization of the Project 90 data set. The dashed lines are not exhaustive, but ill...

Simulation results for the co-evolution of epidemic spreading and vaccine uptake behavior in Erdős-Rényi networks.

Anupama Sharma (482209)
Shakti N. Menon (707421)
V. Sasidevan (6728927)
Sitabhra Sinha (150529)

May 2019

(a) A sample time series showing the evolution of S, I, R and V for a simulated epidemic with β = 0....

Epidemic duration of SIR epidemics using HS75 network models.

David A. Rolls (478964)
Peng Wang (34436)
Emma McBryde (392529)
Philippa Pattison (124036)
Garry Robins (124040)

November 2015

For each network model, shown are the mean (with 95% confidence intervals) over 100 simulated net...

Parameterisation of Keeling’s network generation algorithm

Badham, J
Abbass, H
Stocker, R

October 2017

Simulation is increasingly being used to examine epidemic behaviour and assess potential management ...

Additional file 2 of High-resolution epidemic simulation using within-host infection and contact data

Van Kinh Nguyen (3609323)
Rafael Mikolajczyk (43665)
Esteban Abelardo Hernandez-Vargas (5526749)

July 2018

Figure S2. Case-fatality rate in different vaccination schemes. Simulations of a network of size ten...

A survey of epidemiological modeling on networks and investigation of the relationship between the fraction of epidemics that take-off and the endemic level in a network

Selbach-Allen, Megan

The basic reproduction number, R0, is an important quantity in disease modelling. While it is well d...

Towards inferring network properties from epidemic data

Istvan Z Kiss (10582742)
Luc Berthouze (4461307)
Wasiur R KhudaBukhsh (16294496)

January 2024

Epidemic propagation on networks represents an important departure from traditional mass-action mode...

A comparison of the theoretical and the simulated epidemic size and threshold.

Yong Min (220928)
Xiaogang Jin (170080)
Ying Ge (175278)
Jie Chang (378968)

February 2013

The curves depict the average epidemic size as a function of the external transmission rates in t...

Practice of epidemiology infection in social networks: Using network analysis to identify high-risk individuals

R. M. Christley
G. L. Pinchbeck
R. G. Bowers
D. Clancy
N. P. French
R. Bennett
J. Turner

September 2016

Simulation studies using susceptible-infectious-recovered models were conducted to estimate individu...

Epidemics simulations on the “Dynamic Romantic network”.

Alexsandro M. Carvalho (297159)
Sebastián Gonçalves (297160)

February 2013

(A) Final fraction of non-infected subjects as a function of the infective time and the infecti...

Summary of the parameters used in simulations.

Martial L. Ndeffo Mbah (326538)
Jingzhou Liu (115526)
Chris T. Bauch (119485)
Yonas I. Tekel (326539)
Jan Medlock (42455)
Lauren Ancel Meyers (27605)
Alison P. Galvani (42462)

February 2013

*For each network structure, transmission probability was chosen so as to ensure that the average...

Schematic representation of the study method.

Abstract

Extracted data

Schematic representation of the study method.

Abstract

Extracted data

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