Lecturer: Ernst Kuwert
Assistant: Xuwen Zhang
Language: in German

Time and place

Lecture: Mo, Mi, 8-10h, HS Rundbau, Albertstr. 21
Tutorial: 2 hours, various dates

Content

Analysis II is the continuation of Analysis I from the winter semester and one of the basic lectures of the study programmes in Mathematics. Central concepts of Analysis I (limits and derivations) will be generalized to the case of higher dimension.

Central topics are the topology of \(\mathbb R^n\), metrics and norms, differential calculs in several variables, ordinary differential equations and in particular linear differential equations.

Previous knowledge

Analysis I, Linear Algebra I (or bridge course linear algebra)

Usability

Analysis

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Sebastian Goette
Assistant: Mikhail Tëmkin
Language: in German

Time and place

Lecture: Di, Do, 8-10h, HS Rundbau, Albertstr. 21
Tutorial: 2 hours, various dates

Content

Linear algebra II is the continuation of the lecture linear algebra I from the winter semester and one of the basic courses of math studies. Central topics are: Jordan’s normal form of endomorphisms, symmetrical bilinear forms with especially the Sylvester’s theorem, Euclidian and Hermitian vector spaces, skalar products, orthonormal bases, orthogonal and (self-) adjugated , spectral theorem, principal axis theorem.

Previous knowledge

Linear Algebra I

Usability

Linear Algebra

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Wolfgang Soergel
Language: in German

Time and place

Lecture: Fr, 8-10h, HS Weismann-Haus, Albertstr. 21a
Tutorial: 2 hours, various dates
Sit-in exam: date to be announced

Content

The lecture gives an introduction to elementary geometry in Euclidian and non-Euclidian space and its mathematical foundations. We get to know Euclidean, hyperbolic, and projective geometry as examples of incidence geometries, and study their symmetry groups.

The next main topic is the axiomatic characterization of the Euclidean plane. The focus is on the story of the fifth Euclidian axiom (and the attempts to get rid of it).

Previous knowledge

Linear Algebra I

Usability

Elementary Geometry

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Patrick Dondl
Assistant: Jonathan Brugger
Language: in German

Time and place

Lecture: Mi, 14-16h, HS Weismann-Haus, Albertstr. 21a
Tutorial: 2 hours fortnightly, various dates
Sit-in exam GHS Chemie (HS -1028), Flachbau Chemie, Albertstr. 21

Content

Numerics is a discipline of mathematics that deals with the practical solution of mathematical problems. As a rule, problems are not precisely solved but approximated, for which a sensible compromise of accuracy and computing effort has to be found. In the second part of the two -semester course, questions of the analysis such as the approximation of functions by polynomials, the approximately solution of non -linear equations and the practical calculation of integrals are treated. Attendance at the accompanying computer exercise sessions is recommended. These take place fortnightly, alternating with the tutorial for the lecture.

Previous knowledge

necessary: Linear Algebra I and Analysis I

useful: Linear Algebra II, Analysis II

Usability

Numerics

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Thorsten Schmidt
Assistant: Simone Pavarana
Language: in German

Time and place

Lecture: Fr, 10-12h, HS Weismann-Haus, Albertstr. 21a
Tutorial: 2 hours fortnightly, various dates
Sit-in exam: date to be announced

Content

After gaining an insight into the basics and various methods and questions of stochastics and probability theory in the Stochastics I lecture, this lecture will mainly focus on statistical topics, especially those that are relevant for students studying to become secondary school teachers. However, the lecture can also be a (hopefully) useful supplement and a good basis for later attendance of the course lecture ‘Mathematical Statistics’ for students in the B.Sc. in Mathematics with an interest in stochastics.

After clarifying the term ‘statistical model’, methods for constructing estimators (e.g. maximum likelihood principle, method of moments) and quality criteria for these (reliability of expectations, consistency) are discussed. Confidence intervals and hypothesis tests are also introduced. Linear models are considered as further applications and, if time permits, other statistical methods. The properties of exponential families and multivariate normal distributions, which are useful for many test and estimation methods, are also introduced.

Previous knowledge

Linear Algebra I+II and Analysis I+II

Usability

Elementary Probabilty Theory

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Guofang Wang
Language: in English

Time and place

Lecture: Mo, Mi, 12-14h, HS II, Albertstr. 23b
Tutorial: 2 hours, date to be determined and announced in class
Sit-in exam: date to be announced

Attention: Change of time and room!

Content

Linear functional analysis, which is the subject of the lecture, uses concepts of linear algebra such as vector space, linear operator, dual space, scalar product, adjoint map, eigenvalue, spectrum to solve equations in infinite-dimensional function spaces, especially linear differential equations. The algebraic concepts have to be extended by topological concepts such as convergence, completeness and compactness.

This approach was developed at the beginning of the 20th century by Hilbert, among others, and is now part of the methodological foundation of analysis, numerics and mathematical physics, in particular quantum mechanics, and is also indispensable in other mathematical areas.

Previous knowledge

Linear Algebra I+II, Analysis I–III

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Abhishek Oswal
Language: in English

Time and place

Lecture: Di, Do, 12-14h, SR 404, Ernst-Zermelo-Str. 1
Tutorial: 2 hours, date to be determined and announced in class

Content

In linear algebra you studied linear systems of equations. In commutative algebra, we study polynomial equation systems such as \(x^2+y^2 = \) 1 and their solution sets, the algebraic varieties. It will turn out that such a variety is closely related to the ring of the restrictions of polynomial functions on that variety, and that we can extrapolate this relationship to a geometric understanding of any commutative rings, in particular the ring of the integers. Commutative algebra, algebraic geometry, and number theory grow together in this conceptual building. The lecture aims to introduce into this conceptual world. We will especially focus on the dimension of algebraic varieties and their cutting behavior, which generalizes the phenomena known from the linear algebra on the case of polynomial equation systems.

Previous knowledge

necessary: Linear Algebra I+II

useful: Algebra and Number Theory

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Markus Junker
Language: in German

Time and place

Lecture: Mo, Mi, 14-16h, HS II, Albertstr. 23b
Tutorial: 2 hours, date to be determined and announced in class
Sit-in exam: date to be announced

Content

This introductory course in mathematical logic consists of several parts. It the basics of predicate logic and a brief introduction to model theory and the axiom system as well as the axiom system of set theory. The aim of the lecture is to explain the recursion-theoretical content of the predicate calculus, in particular the so-called Peano-arithmetic and Gödel's incompleteness theorems.

Previous knowledge

Basic knowledge of mathematics from first semester lectures

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Thorsten Schmidt
Language: in English

Time and place

Lecture: Fr, 8-10h, HS II, Albertstr. 23b, Do, 12-14h, HS Weismann-Haus, Albertstr. 21a
Tutorial: 2 hours, date to be determined and announced in class
Sit-in exam: date to be announced

Content

The problem of axiomatising probability theory was solved by Kolmogorov in 1933: a probability is a measure of the set of all possible outcomes of a random experiment. From this starting point, the entire modern theory of probability develops with numerous references to current applications.

The lecture is a systematic introduction to this area based on measure theory and includes, among other things, the central limit theorem in the Lindeberg-Feller version, conditional expectations and regular versions, martingales and martingale convergence theorems, the strong law of large numbers and the ergodic theorem as well as Brownian motion.

Previous knowledge

necessary: Analysis I+II, Linear Algebra I, Elementary Probability Theory I

useful: Analysis III

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Angelika Rohde
Language: in English

Time and place

Lecture: Di, Do, 12-14h, HS II, Albertstr. 23b
Tutorial: 2 hours, date to be determined and announced in class

Content

This lecture builds the foundation of one of the key areas of probability theory: stochastic analysis. We start with a rigorous construction of the It^o integral that integrates against a Brownian motion (or, more generally, a continuous local martingale). In this connection, we learn about It^o's celebrated formula, Girsanov’s theorem, representation theorems for continuous local martingales and about the exciting theory of local times. Then, we discuss the relation of Brownian motion and Dirichlet problems. In the final part of the lecture, we study stochastic differential equations, which provide a rich class of stochastic models that are of interest in many areas of applied probability theory, such as mathematical finance, physics or biology. We discuss the main existence and uniqueness results, the connection to the martingale problem of Stroock-Varadhan and the important Yamada-Watanabe theory.

Previous knowledge

Probability Theory I and II (Stochastic Processes)

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Heike Mildenberger
Assistant: Simon Klemm
Language: in German

Time and place

Lecture: Di, Do, 10-12h, HS II, Albertstr. 23b
Tutorial: 2 hours, date to be determined and announced in class
Sit-in exam: date to be announced

Content

A topological space consists of a basic set \(X\) and a family of open subsets of the basic set, which is called topology on \(X\). Examples over the basic sets \(\mathbb R\) and \({\mathbb R}^n\) are given in the analysis lectures. The mathematical subject \glqq{}Topology\grqq\ is the study of topological spaces and the investigation of topological spaces. Our lecture is an introduction to set-theoretic and algebraic topology.

Previous knowledge

Analysis I and II, Linear Algebra I

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Sören Bartels
Language: in English

Time and place

Lecture: Mo, 12-14h, SR 226, Hermann-Herder-Str. 10
Tutorial: 2 hours, date to be determined and announced in class

Content

The lecture addresses algorithmic aspects in the practical realization of mathematical methods in big data analytics and machine learning. The first part will be devoted to the development of recommendation systems, clustering methods and sparse recovery techniques. The architecture and approximation properties as well as the training of neural networks are the subject of the second part. Convergence results for accelerated gradient descent methods for nonsmooth problems will be analyzed in the third part of the course. The lecture is accompanied by weekly tutorials which will involve both, practical and theoretical exercises.

Previous knowledge

Lectures "Numerik I, II" or lecture "Basics in Applied Mathematics"

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Diyora Salimova
Language: in English

Time and place

Lecture: Mi, 12-14h, SR 226, Hermann-Herder-Str. 10
Tutorial: 2 hours, date to be determined and announced in class

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Chiara Saffirio
Language: in English

Time and place

Lecture: Mo, 14-16h, SR 404, Ernst-Zermelo-Str. 1
Tutorial: 2 hours, date to be determined and announced in class

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Rainer Dahlhaus
Language: in English

Time and place

Lecture: Do, 10-12h, SR 127, Ernst-Zermelo-Str. 1
Tutorial: 2 hours, date to be determined and announced in class

Requirements on examinations, assessments and coursework will be described in the supplements of the module handbooks to be published as part of the course cataloque by end of October.

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Moritz Diehl
Language: in English

Time and place

Tutorial / flipped classroom: Di, 14-16h, HS II, Albertstr. 23b
Sit-in exam: date to be announced

Content

The aim of the course is to give an introduction into numerical methods for the solution of optimization problems in science and engineering. The focus is on continuous nonlinear optimization in finite dimensions, covering both convex and nonconvex problems. The course divided into four major parts:

1. Fundamental Concepts of Optimization: Definitions, Types of Optimization Problems, Convexity, Duality, Compu- ting Derivatives
2. Unconstrained Optimization and Newton-Type Algorithms: Exact Newton, Quasi-Newton, BFGS, Gauss-Newton, Globalization
3. Equality Constrained Optimization: Optimality Conditions, Newton-Lagrange and Constrained Gauss–Newton, Quasi-Newton, Globalization
4. Inequality Constrained Optimization Algorithms: Karush-Kuhn-Tucker Conditions, Active Set Methods, Interior Point Methods, Sequential Quadratic Programming

The course is organized as inverted classroom based on lecture recordings and a lecture manuscript, with weekly alternating Q&A sessions and exercise sessions. The lecture is accompanied by intensive computer exercises offered in Python (6 ECTS) and an optional project (3 ECTS). The project consists in the formulation and implementation of a self-chosen optimization problem or numerical solution method, resulting in documented computer code, a project report, and a public presentation. Please check the website for further information.

Previous knowledge

necessary: Analysis I–II, Linear Algebra I–II

useful: Introduction to Numerics

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Katharina Böcherer-Linder
Language: in German

Time and place

Mo, 10-12h, SR 226, Hermann-Herder-Str. 10
Tutorial: 2 hours, date to be determined and announced in class
Sit-in exam: date to be announced

Content

Mathematics didactic principles and their learning theory foundations and possibilities of teaching implementation (also e.g. with the help of digital media). \\ Theoretical concepts on central mathematical thinking activities such as concept formation, modeling, problem solving and reasoning. \\ Mathematics didactic constructs: Barriers to understanding, pre-concepts, basic ideas, specific difficulties with selected mathematical content. \\ Concepts for dealing with heterogeneity, taking into account subject-specific characteristics particularities (e.g. dyscalculia or mathematical giftedness).\\ Levels of conceptual rigour and formalization as well as their age-appropriate implementation.

Previous knowledge

Required: Analysis~I, Linear Algebra~I

Usability

(Introduction to) Mathematics Education

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Organisation: Katharina Böcherer-Linder, Susanne Knies
Language: in German

Content

What characterizes a good tutorial? This question will be discussed in the first workshop and tips and suggestions will be given. Experiences will be shared in the second workshop.

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Ludwig Striet
Language: in German

Time and place

Lecture: Mo, 16-18h, HS Weismann-Haus, Albertstr. 21a
Tutorial: 2 hours, various dates

Previous knowledge

none

Usability

Computer Exercise
Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Patrick Dondl
Language: in German

Programming exercise: 2 hours fortnightly, various dates

Content

In the practical exercises accompanying the Numerics II lecture, the algorithms developed and analysed in the lecture are implemented in practice and tested experimentally. The implementation is carried out in the programming languages Matlab, C++ and Python. Elementary programming skills are assumed.

Previous knowledge

See the lecture Numerics II.

In addition elementary programming knowledge.

Usability

Computer Exercise
Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Peter Pfaffelhuber
Language: in English

Time and place

Mo, 12-14h, SR 127, Ernst-Zermelo-Str. 1

Usability

Computer Exercise
Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Sören Bartels
Language: in German

Time and place

Seminar: Mo, 14-16h, SR 226, Hermann-Herder-Str. 10
Preregistration:
Preliminary Meeting
Preparation meetings for talks: Dates by arrangement

Usability

Undergraduate Seminar

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Susanne Knies
Language: in German

Time and place

Seminar: Di, 14-16h, SR 125, Ernst-Zermelo-Str. 1
Preregistration:
Preliminary Meeting
Preparation meetings for talks: Dates by arrangement

Usability

Undergraduate Seminar

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Ernst August v. Hammerstein
Language: in German

Time and place

Di, 10-12h, SR 127, Ernst-Zermelo-Str. 1
Preliminary Meeting
Preregistration:
Preparation meetings for talks: Dates by arrangement

Usability

Undergraduate Seminar

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Annette Huber-Klawitter
Assistant: Ben Snodgrass
Language: Talk/participation possible in German and English

Time and place

Seminar: Mo, 10-12h, SR 404, Ernst-Zermelo-Str. 1
Preliminary Meeting

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Diyora Salimova
Language: Talk/participation possible in German and English

Time and place

Seminar: Mi, 14-16h, SR 226, Hermann-Herder-Str. 10
Preregistration: by e-mail to Diyora Salimova
Preliminary Meeting
Preparation meetings for talks: Dates by arrangement

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Wolfgang Soergel
Language: Talk/participation possible in German and English

Time and place

Seminar: Do, 10-12h, SR 125, Ernst-Zermelo-Str. 1
Preregistration: by e-mail to Wolfgang Soergel
Preliminary Meeting
Preparation meetings for talks: Dates by arrangement

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Heike Mildenberger
Assistant: Maxwell Levine
Language: Talk/participation possible in German and English

Time and place

Seminar: Di, 16-18h, SR 125, Ernst-Zermelo-Str. 1
Preliminary Meeting
Preparation meetings for talks: Dates by arrangement

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Angelika Rohde
Language: Talk/participation possible in German and English

Block seminar
Preregistration:
Preliminary Meeting
Preparation meetings for talks: Dates by arrangement

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Nadine Große
Assistant: Maximilian Stegemeyer
Language: Talk/participation possible in German and English

Time and place

Seminar: Di, 12-14h, SR 125, Ernst-Zermelo-Str. 1
Preliminary Meeting
Preparation meetings for talks: Dates by arrangement

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Patrick Dondl, Guofang Wang
Language: Talk/participation possible in German and English

Time and place

Seminar: Mi, 16-18h, SR 125, Ernst-Zermelo-Str. 1
Preliminary Meeting SR 125, Ernst-Zermelo-Str. 1
Preparation meetings for talks: Dates by arrangement

In HISinOne: no course registration, but exam registration until 15 April 2026.

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.

Lecturer: Harald Binder
Language: Talk/participation possible in German and English

Time and place

Seminar: Mi, 10:15-11:30h, HS Medizinische Biometrie, 1. OG, Stefan-Meier-Str. 26
Preregistration:
Preliminary Meeting HS Medizinische Biometrie, 1. OG, Stefan-Meier-Str. 26

In HISinOne: no course registration, but exam registration until 8 October 2025.

Content

To answer complex biomedical questions from large amounts of data, a wide range of analysis tools is often necessary, e.g. deep learning or general machine learning techniques, which is often summarized under the term ``Medical Data Science''. Statistical approaches play an important rôle as the basis for this. A selection of approaches is to be presented in the seminar lectures that are based on recent original work. The exact thematic orientation is still to be determined.

Previous knowledge

Good knowledge of probability theory and mathematical statistics.

Usability

Elective (Option Area)

Please refer to the Supplements to the Module Handbooks for the number of ECTS credits.