DEPARTAMENTO DE PROBABILIDAD Y ESTADÍSTICA, IIMAS-UNAM On a Harris process with exchangeable increments to model stochastic volatility M. en C. Michelle Anzarut Chacalo (Estudiante del Posgrado de Ciencias Matemáticas, IIMAS-UNAM) There has been an increasing use of Lévy processes in applied sciences. However, such processes are spatially homogeneous, a property that does not always characterize empirical data. In this work we explore a one-dimensional, strongly-stationary Feller process. Some of its properties make it attractive for applications. In particular, it has a spatially dependent structure and arbitrary, but fixed, invariant distribution, which can be chosen to fit different scenarios. We develop procedures for the Bayesian estimation of the process, running rigid tests to prove their convergence and accuracy. In addition, the proposal is employed to define a simple, yet useful, stochastic volatility model, providing an alternative to models based on independent-increment or Ornestein-Uhlenbeck-type processes. Change-Point Detection on Dependent Data, a Random-Partition Approach M. en C. Asael Fabian Martínez Martínez (Estudiante del Posgrado de Ciencias Matemáticas, IIMAS-UNAM) Change-point detection models aim to find abrupt changes in a given sample indexed on an ordered set. We tackle this problem under a clustering approach restricted by such indexing set. Our proposed methodology is based on exchangeable partition probability functions, specifically on Pitman's sampling formula, also known as two-parameter Poisson Dirichlet process. Moreover, and due to the model-based nature of the problem, emphasis will be given to the case where data inside each cluster is modelled by a Markovian process, in particular we will concentrate on discretely observed Ornstein-Uhlenbeck diffusion processes. Some properties of the resulting model are explained and posterior results are obtained via a novel Markov chain Monte Carlo algorithm. Ruin probabilities for Bayesian exchangeable claims processes M. en C. Arrigo Coen Coria (Estudiante del Posgrado de Ciencias Matemáticas, IIMAS-UNAM) Among the driving assumptions in classical collective risk models, the independence among claims is frequently violated by real applications. Therefore, there is an evident need of models that relax such a restriction. We undertake the exchangeable claims platform and obtain some results for the infinite time ruin probability. The main result is that the ruin probability under the exchangeable claims model can be represented as the expected value of the ruin probabilities corresponding to certain independent claims cases. This allows us to extend some classical results to this dependent claims scenario. The main tool is based on the de Finetti’s representation theorem for exchangeable 28 de mayo Salón 302, Edificio Anexo del IIMAS 13:00 horas Circuito Escolar S/N, Ciudad Universitaria
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