Nonparametric Bayesian Methods: Models, Algorithms, and Applications

This tutorial is taking place at the University of Cambridge, UK from Wednesday 2020 January 15 to Friday 2020 January 17. See this link for the latest versions of all tutorials.

Part I: Wednesday, January 15, 4:00 PM – 5:00 PM
Part II: Thursday, January 16, 3:30 PM – 5:00 PM
Part III: Friday, January 17, 3:30 PM – 5:00 PM

Instructor:
  Professor Tamara Broderick
  Email:


Description

This tutorial introduces nonparametric Bayes (BNP) as a tool for modern data science and machine learning. BNP methods are useful in a variety of data analyses---including density estimation without parametric assumptions and clustering models that adaptively determine the number of clusters. We will demonstrate that BNP allows the data analyst to learn more from a data set as the size of the data set grows and see how this feat is accomplished. We will describe popular BNP models such as the Dirichlet process and Chinese restaurant process, BNP inference procedures, and recent advances in the field.

Materials

Prerequisites

Working knowledge of Bayesian data analysis. Know how to use Bayes' Theorem to calculate a posterior for both discrete and continuous parametric distributions. Have a basic knowledge of Markov chain Monte Carlo (especially Gibbs) sampling for posterior approximation.

What we won't cover

Gaussian processes are an important branch of nonparametric Bayesian modeling, but we won't have time to cover them here. We'll be focusing on the discrete, or Poisson point process, side of nonparametric Bayesian inference.