University of Geneva
Simulation and modeling of natural processes

Give your career the gift of Coursera Plus with $160 off, billed annually. Save today.

University of Geneva

Simulation and modeling of natural processes

Bastien Chopard
Jean-Luc Falcone
Jonas Latt

Instructors: Bastien Chopard

44,526 already enrolled

Included with Coursera Plus

Gain insight into a topic and learn the fundamentals.
4.3

(387 reviews)

23 hours to complete
3 weeks at 7 hours a week
Flexible schedule
Learn at your own pace
88%
Most learners liked this course
Gain insight into a topic and learn the fundamentals.
4.3

(387 reviews)

23 hours to complete
3 weeks at 7 hours a week
Flexible schedule
Learn at your own pace
88%
Most learners liked this course

Details to know

Shareable certificate

Add to your LinkedIn profile

Assessments

19 assignments

Taught in English

See how employees at top companies are mastering in-demand skills

Placeholder
Placeholder

Earn a career certificate

Add this credential to your LinkedIn profile, resume, or CV

Share it on social media and in your performance review

Placeholder

There are 8 modules in this course

This module gives an overview of the course and presents the general ideas about modeling and simulation. An emphasis is given on ways to represent space and time from a conceptual point of view. An insight of modeling of complex systems is given with the simulation of the grothw and thrombosis of giant aneurysms. Finally, a first class of modeling approaches is presented: the Monte-Carlo methods.

What's included

7 videos1 reading1 assignment

This module intends to provide the most basic concepts of high performance computing used for modeling purposes. It also aims at teaching the basics of Python 3 which will be the programming language used for the quizzes in this course.

What's included

12 videos2 readings3 assignments

Dynamical systems modeling is the principal method developed to study time-space dependent problems. It aims at translating a natural phenomenon into a mathematical set of equations. Once this basic step is performed the principal obstacle is the actual resolution of the obtained mathematical problem. Usually these equations do not possess an analytical solution and advanced numerical methods must be applied to solve them. In this module you will learn the basics of how to write mathematical equations representing natural phenomena and then how to numerically solve them.

What's included

9 videos3 readings3 assignments

This module defines the concept of cellular automata by outlining the basic building blocks of this method. Then an insight of how to apply this technique to natural phenomena is given. Finally the lattice gas automata, a subclass of models used for fluid flows, is presented.

What's included

7 videos2 readings2 assignments

This module provides an introduction to the lattice Boltzmann method, a powerful tool in computational fluid dynamics. The lesson is practice oriented and show, step by step, how to write a program for the lattice Boltzmann method. The program is used to showcase an interesting problem in fluid dynamics, the simulation of a vortex street behind an obstacle.

What's included

8 videos1 reading4 assignments

A short review of classical mechanics, and of numerical methods used to integrate the equations of motions for many interacting particles is presented. The student will learn that the computational expense of resolving all interaction between particles poses a major obstacle to simulating such a system. Specific algorithms are presented to allow to cut down on computational expense, both for short-range and large-range forces. The module focuses in detail on the Barnes-Hut algorithm, a tree algorithm which is popular a popular approach to solve the N-Body problem.

What's included

6 videos1 reading2 assignments

In this module, we will see an alternative approach to model systems which display a trivial behaviour most of the time, but which may change significantly under a sequence of discrete events. Initially developed to simulate queue theory systems (such as consumer waiting queue), the Discrete Event approach has been apply to a large variety of problems, such as traffic intersection modeling or volcanic hazard predictions.

What's included

6 videos1 reading2 assignments

Agent Based Models (ABM) are used to model a complex system by decomposing it in small entities (agents) and by focusing on the relations between agents and with the environment. This approach is derived from artificial intelligence research and is currently used to model various systems such as pedestrian behaviour, social insects, biological cells, etc.

What's included

6 videos1 reading2 assignments

Instructors

Instructor ratings
4.3 (105 ratings)
Bastien Chopard
University of Geneva
1 Course44,526 learners
Jean-Luc Falcone
University of Geneva
1 Course44,526 learners
Jonas Latt
University of Geneva
1 Course44,526 learners

Offered by

Recommended if you're interested in Research Methods

Why people choose Coursera for their career

Felipe M.
Learner since 2018
"To be able to take courses at my own pace and rhythm has been an amazing experience. I can learn whenever it fits my schedule and mood."
Jennifer J.
Learner since 2020
"I directly applied the concepts and skills I learned from my courses to an exciting new project at work."
Larry W.
Learner since 2021
"When I need courses on topics that my university doesn't offer, Coursera is one of the best places to go."
Chaitanya A.
"Learning isn't just about being better at your job: it's so much more than that. Coursera allows me to learn without limits."

Learner reviews

Showing 3 of 387

4.3

387 reviews

  • 5 stars

    51.67%

  • 4 stars

    32.90%

  • 3 stars

    8.74%

  • 2 stars

    3.85%

  • 1 star

    2.82%

AR
5

Reviewed on Apr 17, 2018

BB
4

Reviewed on Jul 1, 2020

PC
4

Reviewed on Sep 22, 2023

Placeholder

Open new doors with Coursera Plus

Unlimited access to 7,000+ world-class courses, hands-on projects, and job-ready certificate programs - all included in your subscription

Advance your career with an online degree

Earn a degree from world-class universities - 100% online

Join over 3,400 global companies that choose Coursera for Business

Upskill your employees to excel in the digital economy

Frequently asked questions