Mathematical Modelling

Lecturer: PD Dr. Björn Schelter


Time and Venue

Lectures:

September, 9th-13th 2013 (full days) 8h00 s.t. - 17:00 s.t
Helmholtzstr. 18, Room 1.20

Language: English

General Informations

Course (2+1 SWS)

Prerequisites:The level of the course is that of a master course
in Mathematical Biometry.
Exam:

September 23rd, 2013, H 11, 10h15 s.t. - 12h15 s.t.

Retake Exam:

November 5th, 2013, Albert-Einstein-Allee 11 in N24/Room 131,
5 p. m. - 7 p. m.

Note: Only students, who have taken the first exam are
admitted to take the resit exam.


Contents

Mathematical models are ubiquitous. They promise to disclose basic
concepts and mechanisms of many systems. This course provides a
state-of-the-art survey of mathematical modelling. Starting in the
first part of the course by introducing some basic concepts of
mathematical modelling, we will discuss various theoretical concepts
and their application. These include models for population dynamics,
excitable systems such as neurons, pattern formation, and enzymes,
which will eventually lead to Systems Biology. Metabolism, signal
transduction, gene regulation, and the cell cycle are characteristic
examples for Systems Biology. The second part of the course is devoted
to the estimation of parameters in such models. Model selection
strategies are discussed as well as sensitivity analysis. The topics
in this course are motivated by real-world applications and are
accompanied by tutorials; the tutorials will to some extent include
programming and computer simulations. Actual measurements will be used
to underpin the strong application orientation of this course.


Aktuelles

Die Klausurergebnisse können persönlich bei Frau Renate Jäger (Raum 161, Helmholtzstr. 18 ) erfragt werden.


Mathematical Modelling

Lecturer: PD Dr. Björn Schelter


Time and Venue

Lectures:

September, 9th-13th 2013 (full days) 8h00 s.t. - 17:00 s.t
Helmholtzstr. 18, Room 1.20

Language: English

General Informations

Course (2+1 SWS)

Prerequisites:The level of the course is that of a master course
in Mathematical Biometry.
Exam:

September 23rd, 2013, H 11, 10h15 s.t. - 12h15 s.t.

Retake Exam:

November 5th, 2013, Albert-Einstein-Allee 11 in N24/Room 131,
5 p. m. - 7 p. m.

Note: Only students, who have taken the first exam are
admitted to take the resit exam.


Contents

Mathematical models are ubiquitous. They promise to disclose basic
concepts and mechanisms of many systems. This course provides a
state-of-the-art survey of mathematical modelling. Starting in the
first part of the course by introducing some basic concepts of
mathematical modelling, we will discuss various theoretical concepts
and their application. These include models for population dynamics,
excitable systems such as neurons, pattern formation, and enzymes,
which will eventually lead to Systems Biology. Metabolism, signal
transduction, gene regulation, and the cell cycle are characteristic
examples for Systems Biology. The second part of the course is devoted
to the estimation of parameters in such models. Model selection
strategies are discussed as well as sensitivity analysis. The topics
in this course are motivated by real-world applications and are
accompanied by tutorials; the tutorials will to some extent include
programming and computer simulations. Actual measurements will be used
to underpin the strong application orientation of this course.


Aktuelles

Die Klausurergebnisse können persönlich bei Frau Renate Jäger (Raum 161, Helmholtzstr. 18 ) erfragt werden.