Ph.D. Candidate: Man Shun Ma
Mathematics, UBC

Mon 1 May 2017, 12:30pm
SPECIAL
Room 202, Anthropology and Sociology Bldg (ANSOC) 6303 NW Marine Drive, UBC

Geometric properties of the space of Lagrangian selfshrinking tori in R^4

Room 202, Anthropology and Sociology Bldg (ANSOC) 6303 NW Marine Drive, UBC
Mon 1 May 2017, 12:30pm2:30pm
Details
We prove that any sequence of conformally branched compact Lagrangian selfshrinkers in four dimensional Euclidean space with uniform area upper bound and fixed genus has a convergent subsequence, if the conformal structures do not degenerate. When the genus is one, we can drop the assumption on nondegeneracy the conformal structures. We also show that there is no branched immersion of Lagrangian selfshrinking sphere. When the area bound is small, we show that any such Lagrangian selfshrinking torus is embedded with uniform curvature estimates. For a general area bound, we prove that the entropy for the Lagrangian selfshrinking tori can only take finitely many values; this is done by deriving a LojasiewiczSimon type gradient inequality for the branched conformal selfshrinking tori.
Using the finiteness of entropy values, we construct a piecewise Lagrangian mean curvature flow for Lagrangian immersed tori, along which the Lagrangian condition is preserved, area is decreasing, and the compact type I singularities with a fixed area upper bound can be perturbed away in finitely many steps. This is a Lagrangian version of the construction for embedded surfaces by ColdingMinicozzi.
In the noncompact situation, we derive a parabolic OmoriYau maximum principle for a proper mean curvature flow when the ambient space has lower bound on lsectional curvature. We apply this to show that the image of Gauss map is preserved under a proper mean curvature flow in Euclidean spaces with uniform bounded second fundamental form. This generalizes a result of Wang for compact immersions. We also prove an OmoriYau maximum principle for properly immersed selfshrinkers.
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Statistics SFU

Mon 1 May 2017, 3:00pm
SPECIAL
Institute of Applied Mathematics
ESB 2012

Possession Sketches: Mapping NBA Strategies

ESB 2012
Mon 1 May 2017, 3:00pm4:00pm
Abstract
We present Possession Sketches, a new machine learning method for organizing and exploring a database of basketball playertracks. Our method organizes basketball possessions by offensive structure. We first develop a model for populating a dictionary of short, repeated, and spatially registered actions. Each action corresponds to an interpretable type of player movement. We examine statistical patterns in these actions, and show how they can be used to describe individual player behavior. Leveraging this vocabulary of actions, we develop a hierarchical model that describes interactions between players. Our approach draws on the topicmodeling literature, extending Latent Dirichlet Allocation (LDA) through a novel representation of player movement data which uses techniques common in animation and video game design. We show that our model is able to group together possessions with similar offensive structure, allowing for efficient search and exploration of the entire database of playertracking data. We show that our model finds repeated offensive structure in teams (e.g. strategy), providing a much more sophisticated, yet interpretable lens into basketball playertracking data.
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Cédric Villani, Fields Medal Winner and TEDx alumni
Director of the Institut Henri Poincaré

Tue 2 May 2017, 7:00pm
Vogue Theatre, Vancouver

PIMS & Peter Wall Institute for Advanced Studies Public Lecture: The Hidden Beauty of Mathematics

Vogue Theatre, Vancouver
Tue 2 May 2017, 7:00pm8:00pm
Details
It has been said that mathematics is the poetry of science. Some of the fundamental values of poetry parallel those of mathematics, and mathematical research is, in many ways, an art. Professor Cédric Villani will discuss the interface between mathematics and art, showing how both these disciplines seek to illuminate hidden beauty in the world.
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Institut Henri Poincaré

Wed 3 May 2017, 3:00pm
ESB 1013, UBC

PIMS Math Seminar: Stability in some models of classical mathematical physics

ESB 1013, UBC
Wed 3 May 2017, 3:00pm4:00pm
Details
Stability of classical mechanical systems is very old problem, still very much under scrutiny nowadays. Some techniques can be applied transversally in different problems.
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Cédric Villani is the Director of the Institut Henri Poincaré, France’s prime and oldest international institute for research in mathematical sciences. He has received many mathematical awards, including the Fields Medal in 2010, often considered the most prestigious in mathematics. Prof. Villani is a specialist of mathematical analysis applied to problems of statistical physics, geometry and probability. His books on gas theory and optimal transport theory have become classics.
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MIT

Thu 4 May 2017, 2:00pm
Topology and related seminars
ESB 4133 (PIMS Lounge)

Character maps, free loops, and fusion systems

ESB 4133 (PIMS Lounge)
Thu 4 May 2017, 2:00pm3:00pm
Abstract
A saturated fusion system associated to a finite group G encodes the pstructure of the group as the Sylow psubgroup enriched with additional conjugation. The fusion system contains just the right amount of algebraic information to for instance reconstruct the pcompletion of BG, but not BG itself. Abstract saturated fusion systems F without ambient groups exist, and these have (pcompleted) classifying spaces BF as well.
In a joint project with Tomer Schlank and Nat Stapleton, we combine the theory of abstract fusion systems with the work by HopkinsKuhnRavenel and Stapleton on transchromatic character maps, and we generalize several results from finite groups to fusion systems.
A main ingredient of this project is studying the free loop spaces L(BG) and L(BF) for groups and fusion systems, and constructing transfer maps from L(BG) to L(BH) when H is a subgroup of G.
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Harvard University

Thu 4 May 2017, 3:15pm
SPECIAL
Topology and related seminars
ESB 4133 (PIMS Lounge)

Nonconnective simplicial commutative rings

ESB 4133 (PIMS Lounge)
Thu 4 May 2017, 3:15pm4:15pm
Abstract
Simplicial commutative rings are one of the first steps into "derived" rings that one can take. Many constructions for general E_inftyring spectra or even Zalgebras are simpler in the world of simplicial commutative rings; however, from a purely homotopytheoretic or categorical picture they are slightly mysterious. I will explain ongoing work with Bhargav Bhatt on an extended theory of "generalized rings" which extends this category to allow nonconnective objects. Many "equational" constructions which cannot work with E_inftyrings extend well to generalized rings.
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Ecole Normale Supérieure de Lyon

Thu 4 May 2017, 3:30pm
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

On the reduction modulo p of crystalline representations of dimension 2

ESB 4127
Thu 4 May 2017, 3:30pm4:30pm
Abstract
I will talk about the problem of studying the reduction modulo p of crystalline representations of dimension 2 of the Galois group of Q_p. In particular, I will be interested in the following situation: fix HodgeTate weights and a residual representation, and consider the locus parametrizing crystalline representations with the given weights and reduction modulo p. What can be said about this locus in general?
(This talk is part of the PIMS focus semester on the mod p Langlands program).
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Institut Henri Poincaré

Fri 5 May 2017, 3:00pm
ESB 1013, UBC

PIMS Distinguished Lecture: The best and worst of Henri Poincaré's mistake

ESB 1013, UBC
Fri 5 May 2017, 3:00pm4:00pm
Details
Abstract: It has been more than hundred years since the death of Henri Poincaré, the world’s greatest mathematician (as we like to say in France, and abroad as well). From the onset, Poincaré’s work and writings, and himself as a universalist and continue to be one of the main symbols of creativity of the human mind and spirit. His errors, however prove that even the greatest, make mistakes.
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ETH Zürich

Fri 5 May 2017, 4:15pm
Number Theory Seminar
Math 126

Elliptic curves over a finite field and traces of Hecke operators

Math 126
Fri 5 May 2017, 4:15pm5:15pm
Abstract
We consider the set of isomorphism classes of elliptic curves over a finite field k from a probabilistic point of view. Let t_E denote the trace of the Frobenius endomorphism, A a finite abelian group, 1_A the characteristic function of the event that there is a subgroup of E(k) isomorphic to A, and R a nonnegative integer. In joint work with N. Kaplan we give explicit formulas for the expectation of t_E^R 1_A in terms of elementary number theory functions and traces of Hecke operators on spaces of classical modular forms. The formulas are necessarily complicated but quite usable in practice as one knows a lot about these spaces of modular forms.
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Ph.D. Candidate: Dimitrios Roxanas
Mathematics, UBC

Tue 9 May 2017, 12:30pm
SPECIAL
Room 202, Anthropology and Sociology Bldg. (ANSOC) 6306 NW Marine Drive, UBC

LongTime Dynamics for the EnergyCritical Harmonic Map Heat Flow and Nonlinear Heat Equation

Room 202, Anthropology and Sociology Bldg. (ANSOC) 6306 NW Marine Drive, UBC
Tue 9 May 2017, 12:30pm2:30pm
Details
The emphasis of this thesis is on critical parabolic problems, in particular, the harmonic map heat from the plane to S2, and nonlinear focusing heat equations with an algebraic nonlinearity.
The focus of this work has been on longtime dynamics, stability and singularity formation, and the investigation of the role of special, solitonlike, solutions to the asymptotic behaviour of solutions.
Harmonic Map Heat Flow: We consider mcorotational solutions to the harmonic map heat flow from R2 to S2. We first work in a class of maps with trivial topology and energy of the initial data below two times the energy of the stationary harmonic map solutions. We give a new proof of global existence and decay. The proof is based on the "concentrationcompactness plus rigidity" approach of Kenig and Merle and relies on the dissipation of the energy and a profile decomposition. We also treat mcorotational maps (m greater than 4) with nontrivial topology and energy of the initial data less than three times the energy of the stationary harmonic map solutions. Through a new stability argument we rule out finitetime blowup and show that the global solution asymptotically converges to a harmonic map.
Nonlinear Heat Equation: We also study solutions of the focusing energycritical nonlinear heat equation. We show that solutions emanating from initial data with energy and kinetic energy below those of the stationary solutions are global and decay to zero. To prove that global solutions dissipate to zero we rely on a refined small data theory, L2dissipation and an approximation argument. We then follow the "concentrationcompactness plus rigidity" roadmap of Kenig and Merle (and in particular the approach taken by Kenig and Koch for NavierStokes) to exclude finitetime blowup.
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Theoretical and Applied Statistics Laboratory, Pierre and Marie Curie University

Tue 9 May 2017, 12:30pm
Scientific Computation and Applied & Industrial Mathematics
ESB 4133 (PIMS Lounge)

Towards a realistic sampling in compressed sensing (CS)

ESB 4133 (PIMS Lounge)
Tue 9 May 2017, 12:30pm1:30pm
Abstract
The talk will be divided into 2 parts. First, we will theoretically justify the applicability of compressed sensing (CS) in reallife applications. To do so, I will introduce CS theorems compatible with physical acquisition constraints. These new results do not only encompass structure in the acquisition but also structured sparsity of the signal of interest. Then, we will present a new way to generate subsampling schemes that can be implemented on real sensors and that give good reconstruction results. This work relies on measure projection and will be illustrated in the case of MRI.
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McGill

Thu 11 May 2017, 3:30pm
Number Theory Seminar
ESB 4127

Resonances of hyperbolic surfaces

ESB 4127
Thu 11 May 2017, 3:30pm4:30pm
Abstract
This is joint work with Frederic Naud (Avignon). After reviewing general results about resonances on (asymptotically) hyperbolic manifolds, we discuss some recent results on the distribution of resonances for infinite index congruence subgroups of SL(2,Z), as well as some conjectures.
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Université de Montpellier, France

Fri 12 May 2017, 1:00pm
SPECIAL
Diff. Geom, Math. Phys., PDE Seminar
ESB 4127 (PIMS videoconferencing room)

Prescribing the curvature of hyperbolic convex bodies

ESB 4127 (PIMS videoconferencing room)
Fri 12 May 2017, 1:00pm2:00pm
Abstract
The Gauss curvature of a convex body can be seen as a measure on the unit sphere (with some properties). For such a measure \mu , Alexandrov problem consists in proving the existence of a convex body whose curvature measure is \mu . In the Euclidean space, this problem is equivalent to an optimal transport problem on the sphere.
In this talk I will consider Alexandrov problem for convex bodies of the hyperbolic space. After defining the curvature measure, I will explain how to relate this problem to a non linear Kantorovich problem on the sphere and how to solve it.
Joint work with J\’er\^ome Bertrand.
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Institut de Mathématiques de Jussieu

Mon 15 May 2017, 11:00am
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

padic etale cohomology of padic symmetric spaces, Lecture 1

ESB 4127
Mon 15 May 2017, 11:00am12:00pm
Abstract
We will present different ways to compute the padi etale cohomology of layers of the Drinfeld tower, and give applications to the padic local Langlands correspondence. (Lecture 1 of 4)
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Boston University

Mon 15 May 2017, 3:30pm
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

Period maps in padic geometry, Lecture 1

ESB 4127
Mon 15 May 2017, 3:30pm4:30pm
Abstract
On a complex variety, you can integrate a differential form over a cycle to get a period. For instance, an elliptic curve has two periods, whose quotient gives an element of the upper half plane. There is a family of concepts (Hodge decomposition, variation of Hodge structures, Shimura varieties) arising from the study of periods on families of complex varieties. What if the complex variety is replaced with a rigidanalytic variety over a padic field? We will review work of Tate, Fontaine, KedlayaLiu, Scholze and others that falls under the domain of padic Hodge theory. One goal will be to understand the surprising HodgeTate period map, defined by Scholze, attached to the modular curve at infinite level. (Lecture 1 of 4)
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Institut de Mathématiques de Jussieu

Tue 16 May 2017, 11:00am
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

padic etale cohomology of padic symmetric spaces, Lecture 2

ESB 4127
Tue 16 May 2017, 11:00am12:00pm
Abstract
We will present different ways to compute the padi etale cohomology of layers of the Drinfeld tower, and give applications to the padic local Langlands correspondence. (Lecture 2 of 4)
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Boston University

Tue 16 May 2017, 3:30pm
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

Period maps in padic geometry, Lecture 2

ESB 4127
Tue 16 May 2017, 3:30pm4:30pm
Abstract
On a complex variety, you can integrate a differential form over a cycle to get a period. For instance, an elliptic curve has two periods, whose quotient gives an element of the upper half plane. There is a family of concepts (Hodge decomposition, variation of Hodge structures, Shimura varieties) arising from the study of periods on families of complex varieties. What if the complex variety is replaced with a rigidanalytic variety over a padic field? We will review work of Tate, Fontaine, KedlayaLiu, Scholze and others that falls under the domain of padic Hodge theory. One goal will be to understand the surprising HodgeTate period map, defined by Scholze, attached to the modular curve at infinite level. (Lecture 2 of 4)
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ENS de Lyon

Wed 17 May 2017, 11:00am
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

padic etale cohomology of padic symmetric spaces, Lecture 3

ESB 4127
Wed 17 May 2017, 11:00am12:00pm
Abstract
We will present different ways to compute the padi etale cohomology of layers of the Drinfeld tower, and give applications to the padic local Langlands correspondence. (Lecture 3 of 4)
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Boston University

Wed 17 May 2017, 3:30pm
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

Period maps in padic geometry, Lecture 3

ESB 4127
Wed 17 May 2017, 3:30pm4:30pm
Abstract
On a complex variety, you can integrate a differential form over a cycle to get a period. For instance, an elliptic curve has two periods, whose quotient gives an element of the upper half plane. There is a family of concepts (Hodge decomposition, variation of Hodge structures, Shimura varieties) arising from the study of periods on families of complex varieties. What if the complex variety is replaced with a rigidanalytic variety over a padic field? We will review work of Tate, Fontaine, KedlayaLiu, Scholze and others that falls under the domain of padic Hodge theory. One goal will be to understand the surprising HodgeTate period map, defined by Scholze, attached to the modular curve at infinite level. (Lecture 3 of 4)
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ENS de Lyon

Thu 18 May 2017, 11:00am
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

padic etale cohomology of padic symmetric spaces, Lecture 4

ESB 4127
Thu 18 May 2017, 11:00am12:00pm
Abstract
We will present different ways to compute the padi etale cohomology of layers of the Drinfeld tower, and give applications to the padic local Langlands correspondence. (Lecture 4 of 4)
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UCSD

Thu 18 May 2017, 3:30pm
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

Multivariate (phi, Gamma)modules

ESB 4127
Thu 18 May 2017, 3:30pm4:30pm
Abstract
The classical theory of (phi, Gamma)modules relates continuous padic representations of the Galois group of a padic field with modules over a certain mildly noncommutative ring. That ring admits a description in terms of a group algebra over Z_p which is crucial for Colmez's padic local Langlands correspondence for GL_2(Q_p). We describe a method for applying a key property of perfectoid spaces, the analytic analogue of Drinfeld's lemma, to the construction of "multivariate (phi, Gamma)modules" corresponding to padic Galois representations in more exotic ways. Based on joint work with Annie Carter and Gergely Zabradi.
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Boston University

Fri 19 May 2017, 11:00am
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

Period maps in padic geometry, Lecture 4

ESB 4127
Fri 19 May 2017, 11:00am12:00pm
Abstract
On a complex variety, you can integrate a differential form over a cycle to get a period. For instance, an elliptic curve has two periods, whose quotient gives an element of the upper half plane. There is a family of concepts (Hodge decomposition, variation of Hodge structures, Shimura varieties) arising from the study of periods on families of complex varieties. What if the complex variety is replaced with a rigidanalytic variety over a padic field? We will review work of Tate, Fontaine, KedlayaLiu, Scholze and others that falls under the domain of padic Hodge theory. One goal will be to understand the surprising HodgeTate period map, defined by Scholze, attached to the modular curve at infinite level. (Lecture 4 of 4)
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University of Toronto

Thu 25 May 2017, 3:30pm
SPECIAL
Number Theory Seminar / PIMS Seminars and PDF Colloquiums
ESB 4127

Ordinary representations and locally analytic socle for GL_n(Q_p)

ESB 4127
Thu 25 May 2017, 3:30pm4:30pm
Abstract
Suppose that rho is an irreducible automorphic ndimensional global padic Galois representation that is uppertriangular locally at p. In previous work with Breuil we constructed a unitary representation of GL_n(Q_p) on a padic Banach space (depending only on rho locally at p) that is an extension of finitely many principal series, and we conjectured that this representation occurs globally in a space of padic automorphic forms cut out by rho. In work in progress we prove many new cases of this conjecture, assuming that rho is moreover crystalline with distinct HodgeTate weights.
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Yale University

Mon 29 May 2017, 10:30am
SPECIAL
Hugh Dempster Pavillion Room 110

The Laplacian Matrices of Graphs: Algorithms and Applications

Hugh Dempster Pavillion Room 110
Mon 29 May 2017, 10:30am11:30am
Details
The Laplacian matrices of graphs arise in many fields, including Machine
Learning, Computer Vision, Optimization, Computational Science, and of
course Network Analysis. We will explain what these matrices are and why
they appear in so many applications.
We then survey recent ideas that allow us to solve systems of linear
equations in Laplacian matrices in nearly linear time, emphasizing the
utility of graph sparsificationthe approximation of a graph by a sparser
oneand a recent algorithm of Kyng and Sachdeva that uses random sampling
to accelerate Gaussian Elimination.
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Mon 29 May 2017, 11:15am
SPECIAL
MATH 125

Mathematics Grad Reception

MATH 125
Mon 29 May 2017, 11:15am12:45pm
Details
This is a lunch followed by the awards presentation.
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Yale University

Mon 29 May 2017, 1:00pm
SPECIAL
Department Colloquium
Math Annex 1100

Niven Lecture: Using physical metaphors to understanding networks.

Math Annex 1100
Mon 29 May 2017, 1:00pm2:00pm
Abstract
Networks describe how things are connected, and are ubiquitous in science and society. Networks can be very concrete, like road networks connecting cities or networks of wires connecting computers. They can represent more abstract connections such as friendship on Facebook. Networks are widely used to model connections between things that have no real connections. For example, Biologists try to understand how cells work by studying networks connecting proteins that interact with each other, and Economists try to understand markets by studying networks connecting institutions that trade with each other.
Questions we ask about a network include "which components of the network are the most important?", "how well do things like information, cars, or disease spread though the network?", and "does the network have a governing structure?".
I will explain how mathematicians address these questions by modeling networks as physical objects, imagining that the connections are springs, electrical resistors, or pipes that carry fluid, and analyzing the resulting systems.
About the Niven Lectures: Ivan Niven was a famous number theorist and expositor; his textbooks have won numerous awards and have been translated into many languages. They are widely used to this day. Niven was born in Vancouver in 1915, earned his Bachelor's and Master's degrees at UBC in 1934 and 1936 and his Ph.D. at the University of Chicago in 1938. He was a faculty member at the University of Oregon since 1947 until his retirement in 1982. The annual Niven Lecture, held at UBC since 2005, is funded in part through a generous bequest from Ivan and Betty Niven to the UBC Mathematics Department.
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Faculty of Mathematics, TU Chemnitz

Tue 30 May 2017, 12:30pm
ESB 4133 (PIMS Lounge)

Optimal Control of Thermoviscoplasticity

ESB 4133 (PIMS Lounge)
Tue 30 May 2017, 12:30pm1:30pm
Details
Elastoplastic deformations play a tremendous role in industrial forming. Many of these processes happen at nonisothermal conditions. Therefore, the optimization of such problems is of interest not only mathematically but also for applications.
In this talk we will present the analysis of the existence of a global solution of an optimal control problem governed by a thermovisco(elasto)plastic model. We will point out the difficulties arising from the nonlinear coupling of the heat equation with the mechanical part of the model. Finally, we will discuss first numerical results.
The talk is based on joint work with Roland Herzog and Christian Meyer.
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Note for Attendees
Latecomers will not be admitted.