Financial Econometrics is one of the tracks of the MSc Econometrics. During your Master's you will follow 4 general courses and 5 track-specific courses and electives. You will finish with a thesis. If you have excellent analytical and leadership abilities, and it is your goal to use applied research to tackle complex real-life problems, you can participate in our Honours programme. There is also an opportunity to pursue a Master’s degree in both Econometrics and Mathematics, if you opt for a Double Degree Master’s programmes
In this course you will gain a deep understanding of econometric theory, practice and inference. You will learn how to apply advanced econometric techniques in practice, extend available methods for particular applications and how to implement them in a matrix programming environment. Also you will learn to understand and derive their statistical properties.
In this course you will study the microeconomic theory of perfect and imperfect competition. Learn under what conditions markets perform well as a means to organise economic activity (and under what conditions they do not).
In this course you will cover the basic theory of multivariate data analysis and of statistical methods in data science. You will focus on the most relevant multivariate techniques, as well as their application to econometric data in computer lab sessions. We will introduce you to Python, NumPy and pandas, data scraping, cleaning and wrangling.
In this course you will build upon the general knowledge you acquired in Advanced Econometrics 1. You will gain a deep understanding of econometric theory, acquire the technical skills to conduct inference and be able to implement these techniques using software like MATLAB, R or Python.
In this course you learn the basic principles of asset pricing and risk mitigation on a market consistent basis. The underlying principle for this course is the notion that the market consistent value of an insurance or pension contract is based on the market value of the best possible replicating portfolio plus a possible add-on for the remaining (unhedgeable) residual risk. Therefore we provide you with an introduction to mathematical techniques which can be used in complete markets, such as those for equity and interest derivatives.
In this course, you learn the elements of probability theory, stochastic processes and stochastic calculus relevant in the analysis of financial derivatives. You focus on the mathematical concepts and techniques and to a lesser extent on their application in pricing and hedging derivatives.
In this course, you learn about linear time series analysis, volatility models, value at risk, VAR models and co-integration, multivariate volatility and correlation models, high-frequency data and realized variance. You will apply your knowledge to empirical data using Python and R.
Choose 1 out of 2 electives:
CED 1: Learning, Stability and Chaos
Choose 1 out of 7 electives:
The academic programme culminates in a thesis, which allows you to engage with state-of-the-art data analysis and statistical techniques. The Master’s thesis is the final requirement for your graduation. It is your chance to dive deep into a topic in your field of choice (track) that you are enthusiastic about, and allows you to do an independent research project. A professor of your track will supervise and support you in writing your thesis.
If you are a student of the Econometrics MSc and you have a record of academic excellence, a critical mind and an enthusiasm for applied research, then our Econometrics Honours programme is a great opportunity for you.
If you want to pursue a Master’s degree in Econometrics as well as in Mathematics, you can opt for one of our Double Degree Master’s programmes:
Study and compare the performance of high-frequency trading (HFT) algorithms for trading Bitcoins on cryptocurrency exchanges. Is it possible to develop profitable trading strategies on the Bitcoin market? Does the inclusion of social indicators, retrieved from sentiment analysis, lead to significantly better results?
I wanted to be an architect when I was a kid. Now I operate as a Machine Learning Engineer. The academic way of tackling a problem, something I learned during my studies, is something I still use a lot.Dolf Noordman - alumnus MSc Econometrics Read about Dolf's experiences with this Master's
A specialisation track must be chosen when applying for the Master’s programme. However, track modifications are still possible until late October. The criteria for all tracks are identical and do not impact the likelihood of being accepted into the programme.
Our Master’s programme admits around 20 students per specialisation track. If you meet the entry requirements, you will always be accepted; this Master’s does not have a numerus fixus.
Most courses have one 2-3 hour lecture and one 2-hour tutorial per week. Generally students take 3 courses at a time, so count on about 12-15 contact hours per week.
Our preference is for in-person lectures. Certain sessions may be pre-recorded or follow a hybrid format. This entails preparing for Question and Answer (Q&A) sessions through video clips and readings, with subsequent discussions during meetings.
Attendance is usually not compulsory for lectures, but commonly for tutorials and other sessions. Students greatly benefit from being present and engaging in discussions with both the instructor and their classmates.
The majority of courses have a written on-site exam, which counts for a large percentage of the final grade. Most courses have additional assessment methods, including oral presentations, developing research proposals, conducting experiments and writing up results. Finally, some courses grade attendance, which is reflected by presence and activity in tutorials and online assignments.