Establishment
Language of instruction
English
Teaching content
FINANCE
Training officer(s)
K.KERSTENS
Stakeholder(s)
K.KERSTENS
Présentation
Prerequisite
Basic portfolio theory course (Mean-variance Markowitz model).
Basic optimization course (Linear Programming, Integer Programming, Non-Linear Programming).
Basic knowledge of Excel Solver add-in.
Basic optimization course (Linear Programming, Integer Programming, Non-Linear Programming).
Basic knowledge of Excel Solver add-in.
Goal
The limitations of the traditional mean-variance portfolio approach are well-known, but unfortunately few alterative portfolio approaches have received widespread recognition.
The course focuses on recent attempts to include higher order moments (e.g., skewness and kurtosis) in portfolio modelling.
This course serves 3 purposes:
(i) to develop an intuitive understanding of investor preferences regarding higher moments,
(ii) the development of multi-dimensional portfolio and fund rating models,
(iii) the application of these tools and the managerial interpretation of its results.
At the end of the course, the student should be able to:
- understand higher order moments
- understand the typical results of the higher order moments portfolios
The course focuses on recent attempts to include higher order moments (e.g., skewness and kurtosis) in portfolio modelling.
This course serves 3 purposes:
(i) to develop an intuitive understanding of investor preferences regarding higher moments,
(ii) the development of multi-dimensional portfolio and fund rating models,
(iii) the application of these tools and the managerial interpretation of its results.
At the end of the course, the student should be able to:
- understand higher order moments
- understand the typical results of the higher order moments portfolios
Presentation
The topics treated in the course include the following:
- MV Tradition
- Alternative Mean- Risk models
- Portfolio Performance: Need to Move Beyond MV
- Multidimensional Portfolio Performance: Adding Skewness
- Multidimensional Portfolio Performance: Multi-Horizon
- An Alternative MVS Portfolio Method: Polynomial Goal Programming (PGP)
- Problems of Traditional Performance Measures
- Mutual Fund Rating
- MV Tradition
- Alternative Mean- Risk models
- Portfolio Performance: Need to Move Beyond MV
- Multidimensional Portfolio Performance: Adding Skewness
- Multidimensional Portfolio Performance: Multi-Horizon
- An Alternative MVS Portfolio Method: Polynomial Goal Programming (PGP)
- Problems of Traditional Performance Measures
- Mutual Fund Rating
Modalités
Organization
Type | Amount of time | Comment | |
---|---|---|---|
Présentiel | |||
Cours interactif | 16,00 | ||
Autoformation | |||
Recherche | 8,00 | ||
Travail personnel | |||
Charge de travail personnel indicative | 8,00 | Team presentations | |
Overall student workload | 32,00 |
Evaluation
Participation in discussions and exercises (some in a team of 2): 50%
Traditional exam with mainly multiple choice questions: 50%
Traditional exam with mainly multiple choice questions: 50%
Control type | Duration | Amount | Weighting |
---|---|---|---|
Contrôle continu | |||
Participation | 0,00 | 0 | 30,00 |
Examen (final) | |||
Examen écrit | 2,00 | 1 | 35,00 |
Autres | |||
Projet Collectif | 2,00 | 1 | 35,00 |
TOTAL | 100,00 |
Ressources
Bibliography
Recommended book: Jurczenko, E., B. Maillet (eds) (2006) Multi-moment Asset Allocation and Pricing Models, New York, Wiley. -