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*'''When:''' Fridays at 2:25pm
__NOTOC__
 
= Applied and Computational Mathematics Seminar =
 
*'''When:''' Fridays at 2:25pm (except as otherwise indicated)
*'''Where:''' 901 Van Vleck Hall
*'''Where:''' 901 Van Vleck Hall
*'''Organizers:''' [https://www.math.wisc.edu/~spagnolie/ Saverio Spagnolie], [https://people.math.wisc.edu/~rycroft/ Chris Rycroft], and [https://sites.google.com/view/laurel-ohm-math Laurel Ohm]
*'''To join the ACMS mailing list:''' Send mail to [mailto:acms+join@g-groups.wisc.edu acms+subscribe@g-groups.wisc.edu].


<br>
<br>  


== Spring 2011 Semester ==
== '''Fall 2025''' ==
 
{| cellpadding="8"
{| style="color:white; font-size:100%" border="0" cellpadding="14" cellspacing="5"
! align="left" |Date
! align="left" |Speaker
! align="left" |Title
! align="left" |Host(s)
|-
|-
| bgcolor="#6699FF" width="250" align="center"|'''Date'''
|Sep 19*
| bgcolor="#6699FF" width="250" align="center"|'''Speaker'''
|[https://www.anl.gov/profile/zichao-di Zichao (Wendy) Di] (Argonne National Laboratory)
| bgcolor="#6699FF" width="250" align="center"|'''Title (click to see abstract)'''
|[[#Di|Multimodal Inverse Problems and Multilevel Optimization for X-ray Imaging Science]]
| bgcolor="#6699FF" width="250" align="center"|'''Host'''
|Rycroft/Li
<!--
|-
|-
| bgcolor="#5A5A5A"|<font color="red">Special Time</font><br> Jan. 27 (Thursday 4:30pm, 901 Van Vleck)
|Sep 26
| bgcolor="#009966"|[http://math.berkeley.edu/~cvinzant/ <font color="white">Cynthia Vinzant</font>], <br> UC Berkeley
|[https://scholar.google.com/citations?user=Imuw5CMAAAAJ&hl=en&oi=ao Pouria Behnoudfar] (UW)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Cynthia_Vinzant.2C_UC_Berkeley|<font color="white"><em>The central curve in linear programming</em></font>]]
|[[#Behnoudfar|Bridging Conceptual and Operational Models: An Explainable AI Framework for Next-Generation Climate Emulators]]
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~craciun/ <font color="white">Gheorghe Craciun</font>]
|Spagnolie
|-
|-
| bgcolor="#5A5A5A"|<font color="red">Mathematics Colloqium</font><br> Jan. 28 (Friday at 4pm, B239 Van Vleck)
|Oct 3
| bgcolor="#009966"|[http://math.berkeley.edu/~mroper/www/Home.html <font color="white">Marcus Roper</font>], <br> UC Berkeley
|
| bgcolor="#0066CC"|[http://www.math.wisc.edu/wiki/index.php/Colloquia <font color="white"><em>Modeling microbial cooperation</em></font>]
|
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~milewski/ <font color="white">Paul Milewski</font>]
|
|-
|-
| bgcolor="#5A5A5A"|Feb. 4 (Friday)
|Oct 10*
| bgcolor="#009966"|[http://www.cs.stir.ac.uk/~jzf/ <font color="white">J&oacute;zsef Farkas</font>], <br> University of Stirling, Scotland
|[https://www.alexandriavolkening.com Alexandria Volkening] (Purdue)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#J.C3.B3zsef_Farkas.2C_University_of_Stirling.2C_Scotland|<font color="white"><em>Analysis of a size-structured cannibalism model with infinite dimensional environmental feedback
|TBD
</em></font>]]
|Rycroft
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~rossmani/ <font color="white">James Rossmanith</font>]
|-
|-
| bgcolor="#5A5A5A"|<font color="red">*** Special Room ***</font> <br> Feb. 11 (Friday) <br> B239 Van Vleck
|Oct 17*
| bgcolor="#009966"|[http://www.inf.ethz.ch/personal/mtatiana/index_english.html <font color="white">Tatiana M&aacute;rquez-Lago </font>], <br> ETH-Zurich
|[https://www.nickderr.me/ Nick Derr] (UW)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Tatiana_M.C3.A1rquez-Lago.2C_ETH-Zurich|<font color="white"><em>Stochastic models in systems and synthetic biology</em></font>]]
|TBD
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~milewski/ <font color="white">Paul Milewski</font>]
|Spagnolie
|-
|-
| bgcolor="#5A5A5A"|Feb. 18 (Friday)
|Oct 24
| bgcolor="#009966"|[http://ccom.ucsd.edu/~astern/ <font color="white">Ari Stern </font>], <br> UC San Diego
|[https://cims.nyu.edu/~oneil/ Mike O'Neil] (Courant)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Ari_Stern.2C_UC_San_Diego|<font color="white"><em>Geometric variational crimes: Hilbert complexes, finite element exterior calculus, and problems on hypersurfaces</em></font>]]
|TBD
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~milewski/ <font color="white">Paul Milewski</font>]
|Spagnolie
|-
|-
| bgcolor="#5A5A5A"|Feb. 25 (Friday)
|Oct 31
| bgcolor="#009966"|[http://www.math.duke.edu/~jliu/ <font color="white">Jian-Guo Liu</font>], <br> Duke University
|[https://people.math.wisc.edu/~hhong78/ Hyukpyo Hong] (UW)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Jian-Guo_Liu.2C_Duke_University|<font color="white"><em>Dynamics of orientational alignment and phase transition
|TBD
</em></font>]]
|Spagnolie
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~jin/ <font color="white">Shi Jin</font>]
|-
|-
| bgcolor="#5A5A5A"|<font color="red">Mathematics Colloqium</font><br> March 4 (Friday at 4pm, B239 Van Vleck)
|Nov 7*
| bgcolor="#009966"|[http://atoc.colorado.edu/people/weiss/ <font color="white">Jeff Weiss</font>], <br> University of Colorado, Boulder
|[https://thales.mit.edu/bush/ John Bush] (MIT)
| bgcolor="#0066CC"|[http://www.math.wisc.edu/wiki/index.php/Colloquia <font color="white"><em>Nonequilibrium statistical mechanics and climate variability</em></font>]
|TBD
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~jeanluc/ <font color="white">Jean-Luc Thiffeault</font>]
|Spagnolie
-->
|-
|-
| bgcolor="#5A5A5A"|March 25 (Friday)
|Nov 14
| bgcolor="#009966"|[http://www.reluga.org/tim/ <font color="white">Tim Reluga</font>], <br> Penn State University
|[https://sites.google.com/andrew.cmu.edu/yukunyue/home Yukun Yue] (UW)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Tim_Reluga.2C_Penn_State_University|<font color="white"><em>Accounting for individual and community interests in the public-health management of infectious diseases</em></font>]]
|TBD
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~rossmani/ <font color="white">James Rossmanith</font>]
|Spagnolie
|-
|-
| bgcolor="#5A5A5A"|March 30 (Wednesday)
|Nov 21*
| bgcolor="#009966"|[http://www.rpi.edu/~lvovy/ <font color="white">Yuri Lvov</font>], <br> Rensselaer Polytechnic Institute
|[https://jesnial.github.io/ Jessie Levillain] (CNES/INSA Toulouse)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Yuri_Lvov.2C_Rensselaer_Polytechnic_Institute|<font color="white"><em>TBA</em></font>]]
|TBD
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~lsmith/ <font color="white">Leslie Smith</font>]
|Ohm
|-
|-
| bgcolor="#5A5A5A"|<font color="yellow">UW Faculty Lecture</font> <br> April 1 (Friday)
|Nov 28
| bgcolor="#009966"|[http://www.math.wisc.edu/~kiselev/ <font color="white">Alex Kiselev</font>], <br> UW-Madison (Mathematics)
|Thanksgiving
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Alex_Kiselev.2C_UW-Madison_.28Mathematics.29|<font color="white"><em>Biomixing by chemotaxis and enhancement of biological reactions</em></font>]]
|
| bgcolor="#5A5A5A"|<font color="white">Local</font>
|
|-
|-
| bgcolor="#5A5A5A"|April 6 (Wednesday)
|Dec 5
| bgcolor="#009966"|[http://www-personal.umich.edu/~gerahdez/ <font color="white">Gerardo Hern&aacute;ndez-Due&ntilde;as</font>], <br> University of Michigan
|[https://mesomod.weebly.com/ Jiamian Hu] (UW)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Gerardo_Hern.C3.A1ndez-Due.C3.B1as.2C_University_of_Michigan|<font color="white"><em>Shallow water flows in channels</em></font>]]
|TBD
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~rossmani/ <font color="white">James Rossmanith</font>]
|Chen
|-
|-
| bgcolor="#5A5A5A"|April 8 (Friday)
|Dec 12
| bgcolor="#009966"|[http://math.asu.edu/~ag/ <font color="white">Anne Gelb</font>], <br> Arizona State University
|[https://sites.google.com/a/brandeis.edu/tfai/home Thomas Fai] (Brandeis)
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Anne_Gelb.2C_Arizona_State_University|<font color="white"><em>Reconstruction of piecewise smooth functions from non-uniform Fourier data
|TBD
</em></font>]]
|Rycroft
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~jin/ <font color="white">Shi Jin</font>]
|-
| bgcolor="#5A5A5A"|<font color="red">Mathematics Colloqium</font><br> April 15 (Friday at 4pm, B239 Van Vleck)
| bgcolor="#009966"|[http://people.sc.fsu.edu/~mgunzburger/ <font color="white">Max Gunzburger</font>], <br> Florida State University
| bgcolor="#0066CC"|[http://www.math.wisc.edu/wiki/index.php/Colloquia <font color="white"><em>TBA</em></font>]
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~rossmani/ <font color="white">James Rossmanith</font>]
|-
| bgcolor="#5A5A5A"|April 22 (Friday)
| bgcolor="#009966"|[http://www.math.unm.edu/~vageli/ <font color="white">Vageli Coutsias</font>], <br> University of New Mexico
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Vageli_Coutsias.2C_University_of_New_Mexico|<font color="white"><em>TBA</em></font>]]
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~mitchell/ <font color="white">Julie Mitchell</font>]
|-
| bgcolor="#5A5A5A"|April 27 (Wednesday)
| bgcolor="#009966"|[http://ccom.ucsd.edu/~mholst/ <font color="white">Michael Holst</font>], <br> UC San Diego
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Michael_Holst.2C_UC_San_Diego|<font color="white"><em>TBA</em></font>]]
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~jin/ <font color="white">Shi Jin</font>]
|-
| bgcolor="#5A5A5A"|April 29 (Friday)
| bgcolor="#009966"|[http://www.math.lsa.umich.edu/~karni/ <font color="white">Smadar Karni</font>], <br> University of Michigan
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Smadar_Karni.2C_University_of_Michigan|<font color="white"><em>TBA</em></font>]]
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~rossmani/ <font color="white">James Rossmanith</font>]
|-
| bgcolor="#5A5A5A"|May 4 (Wednesday)
| bgcolor="#009966"|<font color="white">Tim Barth</font>, <br> NASA Ames
| bgcolor="#0066CC"|[[Applied/ACMS/absS11#Tim_Barth.2C_NASA_Ames|<font color="white"><em>TBA</em></font>]]
| bgcolor="#5A5A5A"|[http://www.math.wisc.edu/~rossmani/ <font color="white">James Rossmanith</font>]
|}
|}
''[Dates marked with an asterisk are close to weekends with a home game for the [https://uwbadgers.com/sports/football/schedule UW Badgers football team]. Hotel availability around these dates is often limited if booked on short notice.]''
==Abstract==
<div id="Di">
'''Zichao (Wendy) Di (Argonne National Laboratory)'''
Title: Multimodal Inverse Problems and Multilevel Optimization for X-ray Imaging Science
X-ray imaging experiments generate vast datasets that are often incomplete or ill-posed when considered in isolation. One way forward is multimodal data analysis, where complementary measurement modalities are fused to reduce ambiguity and improve reconstructions. A key question, both mathematically and practically, is how to identify which modalities to combine and how best to integrate them within an inverse problem framework.


<br>
A second line of work focuses on the computational challenge: even for single-modality inverse problems, the resulting optimization problems are large-scale, nonlinear, and nonconvex. Here, I will discuss multilevel optimization and stochastic sampling strategies that accelerate convergence by exploiting hierarchical structure in both parameter and data spaces.


== Organizer contact information ==
Although developed separately, these two directions point toward a common goal: building scalable, optimization-based frameworks that make the best use of diverse data to enable new discoveries in X-ray imaging science.
[[Image:sign.jpg|250px|link="http://www.math.wisc.edu/~rossmani"]]


<br>
<div id="Behnoudfar">
'''Pouria Behnoudfar (UW Madison)'''


== How to join the ACMS mailing list ==
Title: Bridging Conceptual and Operational Models: An Explainable AI Framework for Next-Generation Climate Emulators
See [https://mailhost.math.wisc.edu/mailman/listinfo/acms mailing list] website


<br>
Computer models are indispensable tools for understanding and predicting the Earth system. While high-resolution operational models have achieved many successes, they exhibit persistent biases, particularly in simulating extreme events and statistical distributions. In contrast, coarse-grained conceptual models isolate fundamental processes and can be precisely calibrated to excel in characterizing specific dynamical and statistical features. Yet, different models often operate independently. By leveraging the complementary strengths of models of varying complexity, we develop a robust, explainable AI framework as a next-generation climate emulator. It bridges the model hierarchy through a reconfigured latent space data assimilation technique, uniquely suited to optimally exploit the sparse output from the conceptual models. The resulting bridging model inherits the high resolution and comprehensive variables of operational models while achieving global accuracy enhancements through targeted improvements from simpler models. Crucially, the AI's mechanism of inter-model communication provides a clear rationale for why each part of the bridging model is improved, moving beyond black-box correction to physically insightful understanding. This computationally efficient framework enables the creation of high-quality digital twins and advances uncertainty quantification for extreme events. We demonstrate its power by significantly correcting biases in CMIP6 simulations of El Ni\~no complexity using simpler, statistically accurate conceptual models.


== Archived semesters ==
== Archived semesters ==
*[[Applied/ACMS/Spring2025|Spring 2025]]
*[[Applied/ACMS/Fall2024|Fall 2024]]
*[[Applied/ACMS/Spring2024|Spring 2024]]
*[[Applied/ACMS/Fall2023|Fall 2023]]
*[[Applied/ACMS/Spring2023|Spring 2023]]
*[[Applied/ACMS/Fall2022|Fall 2022]]
*[[Applied/ACMS/Spring2022|Spring 2022]]
*[[Applied/ACMS/Fall2021|Fall 2021]]
*[[Applied/ACMS/Spring2021|Spring 2021]]
*[[Applied/ACMS/Fall2020|Fall 2020]]
*[[Applied/ACMS/Spring2020|Spring 2020]]
*[[Applied/ACMS/Fall2019|Fall 2019]]
*[[Applied/ACMS/Spring2019|Spring 2019]]
*[[Applied/ACMS/Fall2018|Fall 2018]]
*[[Applied/ACMS/Spring2018|Spring 2018]]
*[[Applied/ACMS/Fall2017|Fall 2017]]
*[[Applied/ACMS/Spring2017|Spring 2017]]
*[[Applied/ACMS/Fall2016|Fall 2016]]
*[[Applied/ACMS/Spring2016|Spring 2016]]
*[[Applied/ACMS/Fall2015|Fall 2015]]
*[[Applied/ACMS/Spring2015|Spring 2015]]
*[[Applied/ACMS/Fall2014|Fall 2014]]
*[[Applied/ACMS/Spring2014|Spring 2014]]
*[[Applied/ACMS/Fall2013|Fall 2013]]
*[[Applied/ACMS/Spring2013|Spring 2013]]
*[[Applied/ACMS/Fall2012|Fall 2012]]
*[[Applied/ACMS/Spring2012|Spring 2012]]
*[[Applied/ACMS/Fall2011|Fall 2011]]
*[[Applied/ACMS/Spring2011|Spring 2011]]
*[[Applied/ACMS/Fall2010|Fall 2010]]
*[[Applied/ACMS/Fall2010|Fall 2010]]
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Spring10.html Spring 2010]
<!--
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Fall09.html Fall 2009]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Spring10.html Spring 2010]
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Spring09.html Spring 2009]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Fall09.html Fall 2009]
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Fall08.html Fall 2008]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Spring09.html Spring 2009]
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Spring08.html Spring 2008]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Fall08.html Fall 2008]
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Fall07.html Fall 2007]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Spring08.html Spring 2008]
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Spring07.html Spring 2007]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Fall07.html Fall 2007]
*[http://www.math.wisc.edu/~rossmani/ACMS/archive/Fall06.html Fall 2006]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Spring07.html Spring 2007]
*[http://www.math.wisc.edu/~jeanluc/ACMS/archive/Fall06.html Fall 2006]
-->


<br>
<br>

Latest revision as of 19:47, 24 September 2025


Applied and Computational Mathematics Seminar


Fall 2025

Date Speaker Title Host(s)
Sep 19* Zichao (Wendy) Di (Argonne National Laboratory) Multimodal Inverse Problems and Multilevel Optimization for X-ray Imaging Science Rycroft/Li
Sep 26 Pouria Behnoudfar (UW) Bridging Conceptual and Operational Models: An Explainable AI Framework for Next-Generation Climate Emulators Spagnolie
Oct 3
Oct 10* Alexandria Volkening (Purdue) TBD Rycroft
Oct 17* Nick Derr (UW) TBD Spagnolie
Oct 24 Mike O'Neil (Courant) TBD Spagnolie
Oct 31 Hyukpyo Hong (UW) TBD Spagnolie
Nov 7* John Bush (MIT) TBD Spagnolie
Nov 14 Yukun Yue (UW) TBD Spagnolie
Nov 21* Jessie Levillain (CNES/INSA Toulouse) TBD Ohm
Nov 28 Thanksgiving
Dec 5 Jiamian Hu (UW) TBD Chen
Dec 12 Thomas Fai (Brandeis) TBD Rycroft

[Dates marked with an asterisk are close to weekends with a home game for the UW Badgers football team. Hotel availability around these dates is often limited if booked on short notice.]

Abstract

Zichao (Wendy) Di (Argonne National Laboratory)

Title: Multimodal Inverse Problems and Multilevel Optimization for X-ray Imaging Science

X-ray imaging experiments generate vast datasets that are often incomplete or ill-posed when considered in isolation. One way forward is multimodal data analysis, where complementary measurement modalities are fused to reduce ambiguity and improve reconstructions. A key question, both mathematically and practically, is how to identify which modalities to combine and how best to integrate them within an inverse problem framework.

A second line of work focuses on the computational challenge: even for single-modality inverse problems, the resulting optimization problems are large-scale, nonlinear, and nonconvex. Here, I will discuss multilevel optimization and stochastic sampling strategies that accelerate convergence by exploiting hierarchical structure in both parameter and data spaces.

Although developed separately, these two directions point toward a common goal: building scalable, optimization-based frameworks that make the best use of diverse data to enable new discoveries in X-ray imaging science.

Pouria Behnoudfar (UW Madison)

Title: Bridging Conceptual and Operational Models: An Explainable AI Framework for Next-Generation Climate Emulators

Computer models are indispensable tools for understanding and predicting the Earth system. While high-resolution operational models have achieved many successes, they exhibit persistent biases, particularly in simulating extreme events and statistical distributions. In contrast, coarse-grained conceptual models isolate fundamental processes and can be precisely calibrated to excel in characterizing specific dynamical and statistical features. Yet, different models often operate independently. By leveraging the complementary strengths of models of varying complexity, we develop a robust, explainable AI framework as a next-generation climate emulator. It bridges the model hierarchy through a reconfigured latent space data assimilation technique, uniquely suited to optimally exploit the sparse output from the conceptual models. The resulting bridging model inherits the high resolution and comprehensive variables of operational models while achieving global accuracy enhancements through targeted improvements from simpler models. Crucially, the AI's mechanism of inter-model communication provides a clear rationale for why each part of the bridging model is improved, moving beyond black-box correction to physically insightful understanding. This computationally efficient framework enables the creation of high-quality digital twins and advances uncertainty quantification for extreme events. We demonstrate its power by significantly correcting biases in CMIP6 simulations of El Ni\~no complexity using simpler, statistically accurate conceptual models.

Archived semesters


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