Imperial College London

Building on the SIR Model

This course is part of Infectious Disease Modelling Specialization

Taught in English

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Course

Gain insight into a topic and learn the fundamentals

4.6

(21 reviews)

Intermediate level
Some related experience required
20 hours (approximately)
Flexible schedule
Learn at your own pace
Prepare for a degree

What you'll learn

  • Distinguish between stochastic and deterministic models, explain when either are appropriate, and perform simple simulations of a stochastic model

  • Identify where it is important to incorporate population structure in a model and design and simulate a transmission model capturing such structure 

  • Evaluate the assumptions behind the Ross MacDonald model, and code such a model using R to simulate the dynamics of a vector-borne disease 

  • Critically evaluate a modelling study and communicate its strengths and weaknesses to a scientifically literate audience 

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Course

Gain insight into a topic and learn the fundamentals

4.6

(21 reviews)

Intermediate level
Some related experience required
20 hours (approximately)
Flexible schedule
Learn at your own pace
Prepare for a degree

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This course is part of the Infectious Disease Modelling Specialization
When you enroll in this course, you'll also be enrolled in this Specialization.
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There are 4 modules in this course

The other two courses in this specialisation have focused on performing deterministic modelling - that is, the epidemic outcome is predictable as all parameters are fully known. However, there are many cases, especially in the early stages of an epidemic, where chance events can be influential in the future of an epidemic. In this module, you will be introduced to some examples of such ‘stochasticity’, as well as, simple approaches to modelling these epidemics using R.

What's included

5 videos8 readings3 discussion prompts5 ungraded labs

In the basic deterministic SIR model, all susceptible individuals in a population are subject to the same risks of infection. However, there are many important infectious diseases where certain groups of the population account for a disproportionate amount of transmission: these are not always the same groups that bear the greatest amount of morbidity and mortality. In this module, you will examine how to model infections for which such ‘population structure’ plays an important role in the transmission dynamics.

What's included

2 videos2 readings4 discussion prompts6 ungraded labs

Many important diseases are not directly transmitted between hosts, but depend on ‘vectors’ to pass infection between hosts, for example biting insects. It is important to be able to extend the modelling approaches you have studied so far to capture these more complex forms of natural history. In this module, you will learn some of the basic approaches to modelling vector-borne diseases, including the Ross-McDonald model, which is a framework that provides an important foundation for such diseases.

What's included

6 videos1 reading2 discussion prompts4 ungraded labs

Even if you are not designing and simulating mathematical models in future, it is important to be able to critically assess a model, to appreciate its strengths and weaknesses, and to identify how it could be improved. One way of gaining this skill is to conduct a critical peer review of a modelling study in the position of a reviewer evaluating it for publication in a journal. This module is reserved for the completion of your assignment - for you to apply the knowledge and skills you've developing throughout this specialisation.

What's included

1 peer review1 discussion prompt

Instructor

Instructor ratings
5.0 (5 ratings)
Nimalan Arinaminpathy
Imperial College London
4 Courses11,646 learners

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