# Schedule for: 18w2239 - Retreat for Young Researchers in Stochastics

Arriving in Banff, Alberta on Friday, October 12 and departing Sunday October 14, 2018

Friday, October 12 | |
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16:00 - 19:30 |
Check-in begins (Front Desk – Professional Development Centre - open 24 hours) ↓ Note: the Lecture rooms are available after 16:00. (Front Desk – Professional Development Centre) |

17:30 - 19:30 |
Dinner ↓ A buffet dinner is served daily between 5:30pm and 7:30pm in the Vistas Dining Room, the top floor of the Sally Borden Building. This should be free. (Vistas Dining Room) |

19:30 - 22:00 |
Lectures (if desired) or informal gathering in 2nd floor lounge, Corbett Hall (if desired) ↓ Beverages and a small assortment of snacks are available in the lounge on a cash honour system. (TCPL or Corbett Hall Lounge (CH 2110)) |

Saturday, October 13 | |
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07:00 - 09:00 |
Breakfast ↓ A buffet breakfast is served daily between 7:00am and 9:00am in the Vistas Dining Room, the top floor of the Sally Borden Building. This should be free; please confirm when you check in. (Vistas Dining Room) |

08:45 - 09:00 |
Welcome Talk by BIRS Staff ↓ A brief introduction to BIRS with important logistical information, technology instruction, and opportunity for participants to ask questions. (TCPL 201) |

09:00 - 09:40 |
Moumanti Podder: Finiteness of Galton-Watson trees and EMSO logic (Chair: Barlow) ↓ Co-authors: Alexander E. Holroyd, Avi Levy and Joel Spencer
The existential monadic second order (EMSO) language on
rooted trees defines a class of properties where only existential, and
no universal, quantification over subsets of vertices are allowed, and
the root is considered a special symbol. It is straightforward to show
that survival (i.e. infiniteness) of rooted trees is expressible as
an EMSO sentence. We show that the negation of infiniteness, i.e.
finiteness of rooted trees is not expressible as an EMSO
sentence. So far, the discussion does not involve probability. After
this, we focus on rooted Galton-Watson (GW) trees with Poisson
offspring distribution (though our results apply to much more general
rooted random trees). Let $P_{\lambda}$ denote the Poisson$(\lambda)$
GW measure. We show that it is not possible to find a subset
$\mathcal{N}$ of rooted infinite trees with $P_{\lambda}(\mathcal{N})
= 0$, and an EMSO sentence $A$, such that for every finite tree, $A$
holds, and for every infinite tree that is not in
$\mathcal{N}$, $\neg A$ holds. Thus, we show that finiteness is not
even almost surely expressible as an EMSO sentence. (TCPL 201) |

09:45 - 10:25 |
Sarai Hernandez Torres: Scaling limits of uniform spanning trees in three dimensions (Chair: Barlow) ↓ The study of the scaling limit of the uniform spanning
tree has been fruitful in the planar case. However,
scaling limits of uniform spanning trees in higher
dimensions are not as well understood. This talk discusses
challenges in the description of these scaling limits and
recent existence results in the three-dimensional case.
This work is part of ongoing joint work with Omer Angel,
David Croydon, and Daisuke Shiraishi. (TCPL 201) |

10:30 - 10:50 | Coffee Break (TCPL Foyer) |

10:50 - 11:30 |
Shirou Wang: Synchronization of random networks (Chair: Ware) ↓ In this talk, we characterize synchronization for
discrete-time, discrete-state random dynamical systems, with random and probabilistic
Boolean networks as particular examples. By studying multiplicative
ergodic properties of the induced linear cocycle, we show such a random
dynamical system with a finite state set synchronizes if and only if
the Lyapunov exponent $0$ has simple multiplicity. For the case of
countable state set, characterization of synchronization is provided in term of
the spectral subspace corresponding to the Lyapunov exponent $-\infty$. In
addition, for both cases of finite and countable state sets, the
mechanism of partial synchronization is described by partitioning the state set
into synchronized subsets. This is a joint work with W. Huang, H. Qian, F.
Ye and Y. Yi. (TCPL 201) |

11:35 - 12:15 |
Yinon Spinka: Finitary codings for random fields (Chair: Ware) ↓ Finitary codings for random fields
Abstract: Let $X$ be a translation-invariant random field on
$\mathbb{Z}^d$ (i.e., a stationary $\mathbb{Z}^d$-process). We say that
$X$ can be coded by an i.i.d. process if there is a deterministic and
translation-invariant way to construct a realization of $X$ from i.i.d.
variables associated to the sites of $\mathbb{Z}^d$. That is, if there
is an i.i.d. process $Y$ and a measurable map F from the underlying
space of $Y$ to that of $X$, which commutes with translations of
$\mathbb{Z}^d$ and satisfies that $F(Y)=X$ in distribution. Such a
coding is called finitary if in order to determine the value of $X$ at
a given site, one only needs to look at a finite (but random) region of
$Y$. We discuss various conditions which guarantee that $X$ can be
finitarily coded by an i.i.d. process. Based on work with Matan Harel. (TCPL 201) |

12:20 - 12:35 |
Group Photo ↓ Meet in foyer of TCPL to participate in the BIRS group photo. The photograph will be taken outdoors, so dress appropriately for the weather. Please don't be late, or you might not be in the official group photo! (TCPL Foyer) |

12:35 - 13:30 |
Lunch ↓ A buffet lunch is served daily between 11:30am and 1:30pm in the Vistas Dining Room, the top floor of the Sally Borden Building. This should be free. (Vistas Dining Room) |

14:00 - 14:40 |
Eric Foxall: Coalescing random walk on unimodular graphs (Chair: Ray) ↓ We prove almost sure site recurrence for coalescing random
walk (CRW) on any unimodular random graph for which the root has finite
expected degree. The proof relies on a linear (in time) bound on the
annealed second moment of the cluster size in the dual process, namely
the voter model. In turn, this bound is achieved through a first moment
estimate on the size-biased cluster, by controlling the adhesion rate
to a tagged particle in the CRW. Joint work with Tom Hutchcroft and
Matt Junge. (TCPL 201) |

14:45 - 15:25 |
Gerado Barrera Vargas: On the abrupt convergence for Ornstein-Uhlenbeck processes driven by a Lévy noise (Chair: Ray) ↓ The main goal is the study of the convergence to equilibrium for a
family of Ornstein-Uhlenbeck processes when the underlying noise is given by a
Lévy process. Under some log-moment condition on the associated Lévy
measure of the noise, when the magnitude of the perturbation is fixed,
the stochastic dynamics goes to its equilibrium as the time goes by.
We show that the convergence is actually abrupt: as the magnitude of
the noise goes to zero, the total variation distance between the law of
the stochastic dynamics and its equilibrium in a time window around the
mixing time comes abruptly from one to zero, and only after this time
window the convergence starts to be exponentially fast. This fact is
known as cut-off phenomenon in the context of Markov chains. This a
joint work with Juan Carlos Pardo. (TCPL 201) |

15:30 - 16:30 | Open Problem Session. Ed Perkins, chair. (TCPL 201) |

16:30 - 18:15 | Hike to Tunnel Mt. (TCPL 201) |

17:30 - 19:30 |
Dinner ↓ A buffet dinner is served daily between 5:30pm and 7:30pm in the Vistas Dining Room, the top floor of the Sally Borden Building. This should be free. (Vistas Dining Room) |

Sunday, October 14 | |
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07:00 - 09:00 |
Checkout by Noon ↓ 2-day workshop participants are welcome to use BIRS facilities (Corbett Hall Lounge, TCPL, Reading Room) until 15:00 on Sunday, although participants are still required to checkout of the guest rooms by 12 noon. There is no coffee break service on Sunday afternoon, but self-serve coffee and tea are always available in the 2nd floor lounge, Corbett Hall. (Front Desk – Professional Development Centre) |

07:00 - 09:00 |
Breakfast ↓ A buffet breakfast is served daily between 7:00am and 9:00am in the Vistas Dining Room, the top floor of the Sally Borden Building. This should be free; please confirm when you check in. (Vistas Dining Room) |

09:00 - 09:40 |
Wenning Wei: Uniqueness of Viscosity Solutions of Stochastic Hamilton-Jacobi Equations (Chair: Hu) ↓ This talk is devoted to the study of fully nonlinear stochastic
Hamilton-Jacobi (HJ) equations for the optimal stochastic control
problem of ordinary differential equations with random coefficients.
Under the standard Lipschitz continuity assumptions on the
coefficients, the value function is proved to be the unique viscosity
solution of the associated stochastic HJ equation. (TCPL 201) |

09:45 - 10:25 |
Zhongwei Shen: Front propagation through fluctuating environments (Chair: Hu) ↓ This talk is an introduction to the mathematical theory of
front propagation phenomena in fluctuating environments with the focus
on the spreading speeds. I will first introduce some backgrounds and
classical results in homogeneous environments. It is followed by the
presentation of some developments in heterogeneous but deterministic
environments. Finally, I will introduce the problem in
random/stochastic environments by presenting some mathematical models
and related mathematical problems. (TCPL 201) |

10:30 - 10:50 | Coffee Break (TCPL Foyer) |

10:50 - 11:30 |
Noah Forman: Construction of a continuum-tree-valued process conjectured by Aldous (Chair: Kozdron) ↓ In '99-'00, David Aldous conjectured that a certain natural "random
walk" on the space of binary combinatorial trees should have a
continuum analogue, which would be a diffusion on the space of
continuum trees, and which would project down, via certain maps, to
Wright-Fisher diffusions. This talk discusses ongoing work by
F-Pal-Rizzolo-Winkel that has recently yielded a construction of a
continuum-tree-valued process, which we claim is the conjectured
process. This construction combines our work on dynamics of certain
projections of the combinatorial tree with our previous construction of
interval-partition-valued diffusions. (TCPL 201) |

11:35 - 12:20 |
Liping Xu: Wellposedness of SDEs with multiplicative noise (Chair: Kozdron) ↓ In this paper, we study the stochastic differential equation in
$R^d$: $dX_t=b(t, X_t)dt+\sigma(t, X_{t-})dZ_t,\ X_0=x$, where $Z$
is a Levy process. We show that for a class of Levy processes
$Z$ and Holder continuous drift $b$ and Lipchitz continous and
uniformly elliptic diffusion $\sigma$, the above SDE has a unique
strong solution for every starting point $x$ by the Zvonkin's
transform. (TCPL 201) |

12:35 - 13:30 |
Lunch ↓ A buffet lunch is served daily between 11:30am and 1:30pm in the Vistas Dining Room, the top floor of the Sally Borden Building. This should be free. (Vistas Dining Room) |