Financial Econometrics for Research Students
This information is for the 2019/20 session.
Dr Christian Julliard
This course is compulsory on the MRes/PhD in Finance. This course is available on the MPhil/PhD in Accounting. This course is available as an outside option to students on other programmes where regulations permit.
Optional on MRes/PhD Economics.
Strong background in statistics and mathematics; some knowledge of Economics and Finance.
The Lent Term of FM481 is shared with FM404 Forecasting Financial Time Series.
Part 1 – Probability, Mathematical Statistics, and Asymptotic Theory, provides students with an understanding of basic concepts in probability and statistics with a view of eventual use for econometric analysis of financial data. Including Basic Probability Concepts, Random Variables, Selected Probability Distributions, Modes of Convergence, Properties of Estimators, Frequentist Hypothesis Testing and Bayesian Inference.
Part 2 - Theory and application of regression analysis, covers estimation and inference theory for regression models. The topics covered are least squares estimation, maximum likelihood estimation, instrumental variable estimation, and generalized method of moments estimation, with applications to linear models, many and weak instrument problems, limited dependent variable models, and panel data models.
Part 3 - The course provides a survey of the theory and application of time series methods in econometrics. The main objective of this course is to develop the skills needed to do empirical research in fields operating with time series data sets. The topics covered are: Hilbert spaces, projections, Wold theorems, ARMA models, Z-transform, convolution theorem, W-K prediction, Spectral analysis; Structural VAR Models; State Space Representations; Models with time-varying coefficients and stochastic volatility; Nonlinear filtering (particle filters); Unit Roots, Spurious Regressions and Cointegration; Predictability.
22 hours of lectures in the MT. 22 hours of lectures in the LT.
Weekly classwork and problem sets.
• Cameron and Trivedi: Microeconometrics. Methods and Applications.
• Campbell, Lo and MacKinlay: The Econometrics of Financial Markets
• Geweke: Contemporary Bayesian Econometrics and Statistics
• Gourieroux and Jasiak: Financial Econometrics: Problems, Models and Methods.
• Greene: Econometric Analysis.
• Johannes and Polson: Computational Methods for Bayesian Inference.
• Hamilton: Time-Series Analysis.
• Hayashi: Econometrics
• Roberts and Whited: “Endogeneity in Empirical Corporate Finance,” Handbook of the Economics of Finance, vol. 2.
• Sargent, T., (1987), Macroeconomic Theory, chapters IX-XI.
• Wooldridge: Econometric Analysis of Cross-Section and Panel Data.
Exam (100%, duration: 3 hours, reading time: 15 minutes) in the summer exam period.
Total students 2018/19: 8
Average class size 2018/19: 8
Controlled access 2018/19: No
Value: One Unit
Personal development skills
- Application of numeracy skills
- Specialist skills