Dear all,
We are glad to inform you that
ABS26, the next Applied Bayesian Statistics school,
running since 2004, will be
held in the city of Como (Italy), along the Lake Como
shoreline at the beautiful
Villa del Grumello, on July 6-10, 2026.
The school is organised by CNR IMATI (Institute of Applied
Mathematics and
Information Technologies at the
Italian National Research Council in Milano), in
cooperation with Fondazione
Alessandro Volta.
The topic will be Interpretable Bayesian Learning for
Physical and Engineering Sciences.
The lecturer will be Prof. Simon Mak (Department
of Statistical Science, Duke University),
a leading expert in integrating
domain knowledge (e.g., scientific theories,
mechanistic models, guiding
principles) as prior information for cost-efficient
statistical inference,
prediction, and decision-making., with the support of Yen-Chun
Liu
(Department of Statistical
Science, Duke University), a brilliant PhD student of Prof.
Mak,
specializing in Bayesian
optimization, Gaussian processes, and reinforcement learning.
If interested, you can register on the school website:
https://abs26.imati.cnr.it/
We currently only accept
payments by bank transfer, but credit cards will be accepted
as soon as possible.
As in the past, there will be a combination of theoretical and
practical sessions,
along with presentations by
participants on their work (past, present, and future)
related to the school's topic.
OUTLINE:
This course investigates the rising topic of interpretable
statistical learning, motivated
by timely needs from modern scientific and
engineering applications. For such
applications, state-of-the-art machine
learning methods often yield analyses that are
uninterpretable to scientists, which
greatly obfuscates scientific findings and decision-making.
Interpretable Bayesian learning provides
an elegant and effective solution by embedding
scientific principles (e.g., boundary
conditions, mechanistic equations) within its prior
specification.
In this course, we will cover a broad spectrum of
interpretable Bayesian learning methods
(with theory and algorithms), providing a
cohesive roadmap for this recent and
rapidly-evolving area of study. This will
be complemented by practical case studies from
ongoing projects in particle physics,
mechanical engineering, and bioengineering. Emphasis will
be made on novel directions for research
in this promising area.
Topics will cover
- Fundamentals of Gaussian process (GP) surrogate
modeling: prediction, parameter inference, experimental
design
- Decision-making with GP surrogates: Bayesian
optimization, active learning, Bayesian inverse problems
- Markov Chain Monte Carlo (MCMC) methods
- Boundary-informed GP modeling
- Shape-constrained (e.g., monotone, isotonic, convex) GP
modeling
- Mechanistic GP modeling
- Physics-integrated neural networks, its Bayesian
variants and recent developments
- Dynamical system recovery: SINDy, Bayesian SINDy, and
recent developments
We hope you will be interested in the school and we would like
to meet you in Como.
We invite you also to share the information with people
potentially interested.
Best regards
Elisa Varini and Fabrizio Ruggeri
Executive Director and Director of ABS26
--
Fabrizio Ruggeri President
CNR IMATI International Statistical Institute
Via Alfonso Corti 12 fabrizio@mi.imati.cnr.it
I-20133 Milano (Italy) www.mi.imati.cnr.it/fabrizio