ECONOMETRICS FOR FINANCE

Federico Carlo Eugenio Carlini
Federico Carlo Eugenio Carlini
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Course code:
M242
General discipline (SSD):
ECON-05/A
Course year:
1
Semester:
Secondo Semestre
Partition of students:
Unique
Credits:
8
Teaching language:
Italian
Total lesson hours:
64
Academic year:
2026/2027
Description
Extended program and reference teaching materials

Instructional goals

The goal of this course is to allow the students to get a basic preparation for being able to write and estimate financial econometric models.

Prerequisites

The student is able to connect econometrics and mathematical financial modelling in such a way is able to interpret financial phenomena through the lens of case-specific data analysis.

Intended learning outcomes

Linear Algebra, Statistics and a beginner knowledge of Python programming language.

Course Contents

Regression analysis and OLS for financial applications Instrumental variables and errors of measures. Time series and dynamic analysis, applied in macro-finance and financial problems.

Reference Books

Hurn, S., Martin, V., Phillips, P.C. and Yu, J., 2021. Financial econometric modeling. Oxford University Press.

Teaching Methods

The course will be held with on line sessions and exercise sessions. The students will learn how to use PYTHON for empirical econometric analysis.

Assessment Method

Attendants: 33% mid-exam 66% written exam on the topic covered in the course Non attendants: written exam on the topics covered in the course and papers that the student have to study independently.

Thesis assignment criteria

Passion for econometrics.

Week 1

Linear Algebra and Probability- Markowitz portfolio theory. Probability and review of concepts in statistics.

Week 2

Statistics: basic concepts, tests, consistency, asymptotic normality. Maximum Likelihood Estimators. Exercise session.

Week 3

Trinity of tests: Likelihood Ratio, Wald and Lagrange multiplier tests. OLS in simple regression. Exercise session.

Week 4

OLS and multiple regression.t and F tests. Statistical significance in a regression. Exercise session.

Week 5

GLS and miss-specification tests. Empirical application: CAPM and two pass regression. Exercise session.

Week 6

On line session: Pooled OLS and Panel Data: Fixed and Random effects. Exercise session.

Week 7

Introduction to Time series and stochastic processes. White Noise, i.i.d. and martingale processes. Autocovariance function and its estimator. Wald representation. MA process. Exercise session.

Week 8

AR processes. Stationarity. Non stationarity. Estimation of parameters of AR and MA processes. Exercise session

Week 9

Forecasting with AR and MA processes. Specification in ARMA models. VAR models. Exercise session.

Week 10

Returns and their empirical characteristics. Conditional volatility. ARCH and GARCH processes. Exercise session.

Week 11

Estimation and forecasting of ARCH and GARCH. Specification Tests. Alternative models of volatility. Exercise session.

Week 12

Risk Management. The basics. VaR and ES. Review of the contents of the course.