Georgia Institute of Technology College of Sciences

The following probability topics are covered in the models that are presented:

• Distributions such as the normal (Gaussian), lognormal, geometric, binomial, Poisson, Student's t, F, chi-square, gamma, and Pareto
• Characteristic functions, sums of independent random variables, a-stable random variables
• Limit Theorems for sums
• Order statistics
• Limit Theorems for extremes
• Elementary stochastic processes such as Markov chains
• Dynamic linear models
• Time series models

The following topics in statistical inference are covered in the models that are presented:

• Likelihood functions
• Estimation
• Testing Hypotheses via Neyman-Pearson tests, likelihood ratio tests, and Wald tests
• Tests of fit
• Markov chain and time series inference
• Regression
• Principal components analysis
• Non-parametric analyses

Applications to financial data are made throughout and include the topics such as the following:

• Testing hypotheses of independence, normality, homoscedascticity, and symmetry for returns, and the Bachelier and Mandelbrot models
• Efficient frontier in portfolio analysis under short selling and riskless borrowing and lending, optimal portfolio under single index and multi-index models, principal components analysis, stability tests of betas from auxiliary data
• Simulation and Monte-Carlo, estimation and assessment of accuracy of path integrals arising in option pricing
• Hill's estimator of the Pareto index, application to solvency analysis and ruin probabilities, connections with a-stability
• Analysis of ar, ma, arma, arima, arch, garch, and stochastic volatility time series models applied to exchange rates, indexes, interest rates, and returns.