5.00 credits
30.0 h
Q1
Teacher(s)
Candelon Bertrand;
Language
English
Prerequisites
You should have a knowledge of basic topics in statistics, econometrics and finance such as those covered in the following courses:
Fundamental mathematical and statistical concepts (such as those covered in Mathématiques avancées et fondements d'économétrie [ LECGE1337 ])
Advanced Finance [LLSMS2100A or LLSMS2100B]
In addition, this course is reserved for students with a bachelor's degree in business engineering or students with equivalent quantitative method skills
Fundamental mathematical and statistical concepts (such as those covered in Mathématiques avancées et fondements d'économétrie [ LECGE1337 ])
Advanced Finance [LLSMS2100A or LLSMS2100B]
In addition, this course is reserved for students with a bachelor's degree in business engineering or students with equivalent quantitative method skills
Main themes
This course overviews topics in computational finance and financial econometrics (data sciences applied to finance).
The emphasis of the course will be on making the transition from an economic model of asset return behavior to an econometric model using real data.
This involves:
Both edX and DataCamp plateforms will be used to allow practical training and continuous learning on R.
The emphasis of the course will be on making the transition from an economic model of asset return behavior to an econometric model using real data.
This involves:
- exploratory data analysis;
- specification of models to explain the data;
- estimation and evaluation of models;
- testing the economic implications of the model;
- forecasting from the model.
Both edX and DataCamp plateforms will be used to allow practical training and continuous learning on R.
Learning outcomes
At the end of this learning unit, the student is able to : | |
1 | Upon completion of this course, students are expected to complete the following key tasks:
3. Knowledge and reasoning; 4. Critical thinking skills. |
Content
The course covers the theoretical and practical aspects of time series forecast. The topics covered are:
. Refreshing in time series conometrics.
. AR, MA, ARMA processes.
. Unit root and non stationarity.
. VAR and VECM models.
. New forecasting models
All empirical exercices and projects will be done with R.
. Refreshing in time series conometrics.
. AR, MA, ARMA processes.
. Unit root and non stationarity.
. VAR and VECM models.
. New forecasting models
All empirical exercices and projects will be done with R.
Teaching methods
Lectures, inverted classrooms, workshops, interventions by experts, assigments, final projects
Evaluation methods
Weekly assigments, final project and oral defence.
Online resources
Moodle et teams
Bibliography
Forecasting: Principles and Practice (FPP): Rob J Hyndman and George Athanasopoulos, https://otexts.com/fpp2/
Introduction to Econometrics with R (IER): Christoph Hanck, Martin Arnold, Alexander Gerber, and Martin Schmelzer, https://www.econometrics-with-r.org/
Introduction to Econometrics with R (IER): Christoph Hanck, Martin Arnold, Alexander Gerber, and Martin Schmelzer, https://www.econometrics-with-r.org/
Faculty or entity
CLSM