Random Trees
Summary
The study of randomly generated trees is a growing field with connections to stochastic processes, combinatorics, and computer science. This course provides an introduction to the field aimed at advanced students. Topics include asymptotic properties and limits of conditioned Galton-Watson trees and related models. We will also discuss methods for the simulation and visualization of random trees.
Students who wish to participate are kindly asked to send me an email.Time and place
Due to the coronavirus pandemic the course will be held online using LMU Moodle. All announcements and lecture materials will be posted on this platform.
Exam regulations
Masterprüfung Mathematik (WP32), Masterprüfung Finanzmathematik (WP13), Bachelor Mathematik (WP20)Literature
- Aldous, David. The continuum random tree. I.Ann. Probab., 19(1):1–28, 1991
- Aldous, David. The continuum random tree. II. An overview. In Stochastic analysis, volume 167 of London Math. Soc. Lecture Note Ser., pages 23–70. Cambridge Univ. Press, 1991.
- Aldous, David. The continuum random tree. III. Ann. Probab., 21(1):248–289, 1993.
- Drmota, Michael. Random trees. An interplay between combinatorics and probability. SpringerWienNewYork, Vienna, 2009. xviii+458 pp.
- Janson, Svante. Simply generated trees, conditioned Galton-Watson trees, random allocations and condensation. Probab. Surv., 9:103–252, 2012.
Introduction video