Comparisons among fractions of infected cattle for a homogeneous network for three different values of k and lower range of β; blue dots showed the fraction of infected for k = 0.1, while red rectangles and green triangles showed the fraction of infected for k = 0.01 and 0.001 respectively.

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 11

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Fraction of cows in each compartment with a 95 percent confidence interval for β = 0.001 (top left),...

How daily increment in movement speeds impacts patterns of disease outbreaks.

Yanyu Xiao (682443)
John C. Beier (357354)
Robert Stephen Cantrell (682444)
Chris Cosner (682445)
Donald L. DeAngelis (682446)
Shigui Ruan (190043)

January 2015

(a)-(c) show the populations of infectious livestock and (d)-(f) simulate the populations of infe...

Outbreak probabilities and sizes of the transmission model on the empirical and the constructed network in study zone 1.

Mirjam Laager (3712447)
Céline Mbilo (5579264)
Enos Abdelaziz Madaye (5579267)
Abakar Naminou (5579270)
Monique Léchenne (3196020)
Aurélie Tschopp (5579273)
Service Kemdongarti Naïssengar (5579276)
Timo Smieszek (520404)
Jakob Zinsstag (113928)
Nakul Chitnis (187823)

August 2018

In each simulation run, one randomly chosen dog is infected from the outside. The simulation ends...

Comparisons among fractions of infected cows for homogeneous network for three different values of k and upper range of β; fractions of infected for all three values of k were almost overlapping, therefore, not sensitive to the movement probability.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

They reached a value very close to one, i.e., the whole network became infected when transmission ra...

Comparisons among fractions of infected cows for heterogeneous network for three different values of k and lower range of β; for k = 0.001 and 0.01, the maximum fraction of infected cows was less than 0.5 for the highest value of transmission rate in the lower range, which meant after the simulation period half of the cows became infected.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

However, for k = 0.1, the infected cows reached up to 0.8. Therefore, we needed to reduce the value ...

Comparisons among fractions of infected cows for heterogeneous network for three different values of k and for upper range of β; the fractions of infected reaches towards 1 rapidly and when the value of transmission rate is 0.03, the fraction of infected become one for all three networks.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Comparisons among fractions of infected cows for heterogeneous network for three different values of...

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum is attained for a homogeneous network.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum ...

The number of infected cows predicted to have tested negative at Higher Burrow farm.

Jan van Dijk (583186)

May 2013

Probability densities are shown with the different colours representing various calculated preval...

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum is attained for a heterogeneous network and a single infected cow in the Kabale municipality.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum ...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 9

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Comparisons among fractions of infected cows for heterogeneous and homogenous networks for the upper...

Probabilities of pairwise transmission pathways amongst infected cattle with sequenced isolates.

Roman Biek (21981)
Anthony O'Hare (116908)
David Wright (116911)
Tom Mallon (116914)
Carl McCormick (116915)
Richard J. Orton (116918)
Stanley McDowell (116923)
Hannah Trewby (116929)
Robin A. Skuce (116935)
Rowland R. Kao (116940)

November 2012

The weighted, directed network shows the probability that a transmission path exists between catt...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 8

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Comparisons among fractions of infected cows for heterogeneous and homogenous networks for lower ran...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 10

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Fraction of cows in each compartment with a 95 percent confidence interval for β = 0.001 (top left),...

Simulation of nominal spread model from an initial infection in a transhumance herd.

Sandip Roy (272747)
Terry F. McElwain (342233)
Yan Wan (342234)

February 2013

Brucellosis among herds of cattle is simulated in a non-intensive agricultural system, in the nom...

Density plots depicting the distribution of time to global infection (TGI) for transmission-potential networks (TPNs).

Shai Pilosof (150055)
Serge Morand (74749)
Boris R. Krasnov (150084)
Charles L. Nunn (146224)

March 2015

TPNs were of equal size and connectance under three conditions: single-species, multi-species wit...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 11

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Fraction of cows in each compartment with a 95 percent confidence interval for β = 0.001 (top left),...

How daily increment in movement speeds impacts patterns of disease outbreaks.

Yanyu Xiao (682443)
John C. Beier (357354)
Robert Stephen Cantrell (682444)
Chris Cosner (682445)
Donald L. DeAngelis (682446)
Shigui Ruan (190043)

January 2015

(a)-(c) show the populations of infectious livestock and (d)-(f) simulate the populations of infe...

Outbreak probabilities and sizes of the transmission model on the empirical and the constructed network in study zone 1.

Mirjam Laager (3712447)
Céline Mbilo (5579264)
Enos Abdelaziz Madaye (5579267)
Abakar Naminou (5579270)
Monique Léchenne (3196020)
Aurélie Tschopp (5579273)
Service Kemdongarti Naïssengar (5579276)
Timo Smieszek (520404)
Jakob Zinsstag (113928)
Nakul Chitnis (187823)

August 2018

In each simulation run, one randomly chosen dog is infected from the outside. The simulation ends...

Comparisons among fractions of infected cows for homogeneous network for three different values of k and upper range of β; fractions of infected for all three values of k were almost overlapping, therefore, not sensitive to the movement probability.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

They reached a value very close to one, i.e., the whole network became infected when transmission ra...

Comparisons among fractions of infected cows for heterogeneous network for three different values of k and lower range of β; for k = 0.001 and 0.01, the maximum fraction of infected cows was less than 0.5 for the highest value of transmission rate in the lower range, which meant after the simulation period half of the cows became infected.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

However, for k = 0.1, the infected cows reached up to 0.8. Therefore, we needed to reduce the value ...

Comparisons among fractions of infected cows for heterogeneous network for three different values of k and for upper range of β; the fractions of infected reaches towards 1 rapidly and when the value of transmission rate is 0.03, the fraction of infected become one for all three networks.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Comparisons among fractions of infected cows for heterogeneous network for three different values of...

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum is attained for a homogeneous network.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum ...

The number of infected cows predicted to have tested negative at Higher Burrow farm.

Jan van Dijk (583186)

May 2013

Probability densities are shown with the different colours representing various calculated preval...

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum is attained for a heterogeneous network and a single infected cow in the Kabale municipality.

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Table shows maximum infected fractions of cows, peak infection time, and rate at which that maximum ...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 9

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Comparisons among fractions of infected cows for heterogeneous and homogenous networks for the upper...

Probabilities of pairwise transmission pathways amongst infected cattle with sequenced isolates.

Roman Biek (21981)
Anthony O'Hare (116908)
David Wright (116911)
Tom Mallon (116914)
Carl McCormick (116915)
Richard J. Orton (116918)
Stanley McDowell (116923)
Hannah Trewby (116929)
Robin A. Skuce (116935)
Rowland R. Kao (116940)

November 2012

The weighted, directed network shows the probability that a transmission path exists between catt...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 8

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Comparisons among fractions of infected cows for heterogeneous and homogenous networks for lower ran...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 10

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Fraction of cows in each compartment with a 95 percent confidence interval for β = 0.001 (top left),...

Simulation of nominal spread model from an initial infection in a transhumance herd.

Sandip Roy (272747)
Terry F. McElwain (342233)
Yan Wan (342234)

February 2013

Brucellosis among herds of cattle is simulated in a non-intensive agricultural system, in the nom...

Density plots depicting the distribution of time to global infection (TGI) for transmission-potential networks (TPNs).

Shai Pilosof (150055)
Serge Morand (74749)
Boris R. Krasnov (150084)
Charles L. Nunn (146224)

March 2015

TPNs were of equal size and connectance under three conditions: single-species, multi-species wit...

Individual-based network model for Rift Valley fever in Kabale District, Uganda - Fig 11

Musa Sekamatte (5159246)
Mahbubul H. Riad (3134700)
Tesfaalem Tekleghiorghis (6425423)
Kenneth J. Linthicum (186895)
Seth C. Britch (186907)
Juergen A. Richt (151942)
J. P. Gonzalez (6425426)
Caterina M. Scoglio (1747498)

March 2019

Fraction of cows in each compartment with a 95 percent confidence interval for β = 0.001 (top left),...

How daily increment in movement speeds impacts patterns of disease outbreaks.

Yanyu Xiao (682443)
John C. Beier (357354)
Robert Stephen Cantrell (682444)
Chris Cosner (682445)
Donald L. DeAngelis (682446)
Shigui Ruan (190043)

January 2015

(a)-(c) show the populations of infectious livestock and (d)-(f) simulate the populations of infe...

Outbreak probabilities and sizes of the transmission model on the empirical and the constructed network in study zone 1.

Mirjam Laager (3712447)
Céline Mbilo (5579264)
Enos Abdelaziz Madaye (5579267)
Abakar Naminou (5579270)
Monique Léchenne (3196020)
Aurélie Tschopp (5579273)
Service Kemdongarti Naïssengar (5579276)
Timo Smieszek (520404)
Jakob Zinsstag (113928)
Nakul Chitnis (187823)

August 2018

In each simulation run, one randomly chosen dog is infected from the outside. The simulation ends...

Abstract

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Abstract

Extracted data

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