Speaker — Jialun Zhou (IMS, Groupe Signal Image — CNRS, Université de Bordeaux)
https://s3-seminar.github.io/seminars/jialun-zhou/
Abstract — Elliptically-Contoured Distributions (ECD) and its Mixture model (MECD) are highly versatile at modeling general, real-world probability distributions. They have therefore played a valuable role in computer vision, image processing, radar signal processing, and biomedical signal processing. Maximum likelihood estimation (MLE) of ECD leads to a system of non-linear equations, most-often addressed using Fixed-Point (FP) methods. And MECD is usually estimated under Expectation-Maximization (EM) framework with FP method. Unfortunately, these methods can become impractical, for large-scale or high-dimensional datasets (due to lack of time, memory, or computational resources). To overcome this difficulty, we introduce a Riemannian optimization method, the Component-wise Information Gradient. On the one hand, CIG is an online method, so its recursive nature greatly reduces time and memory consumption. On the other hand, it uses information geometry to correctly calibrate gradient descent step-sizes, leading to an improved rate of convergence. We also mathematically formulate this rate of convergence, for two variants of CIG, decreasing or adaptive step-sizes, respectively. It also shows that the CIG method compares advantageously to the state-of-the-art, both in computer experiments, and in practical applications.