Projects

2021

Error analysis of finite element methods for adaptive grid structures

Depicted is the magentic flux density of two conductors which are stimulated with 100Hz.
Magnetic flux density of two conductors, which are stimulated with 100Hz at 1 and 0 A
Project partner: Bundeswehr Research Institute for Protective Technologies and CBRN Protection (WIS)
Location: Munster
Contact person: Prof. Dr. Georg Wimmer
Description: For a finite element research code, parallel technologies and multilevel methods on a computer cluster with several nodes for efficiency and increased calculation time.
Project period: 1 May 2019 - 31 Dec 2021

ChessRoberta

The picture contains a robotic arm programmed to play chess.
Chess-playing robotic arm
Project partner: Inhouse
Location: Schweinfurt
Contact person: Prof. Dr. Oliver Bletz-Siebert
Description: A robotic arm (Kuka LBR iiwa) is used to simulate a game of chess. The player enters their own move on the console; the robotic arm then carries out this move and makes its own move. A project of the Master's degree programme Applied Mathematics and Physics.
Project period: 1 Oct 2020-14 Mar 2021

Best-Fit sub-project Coaching and Autonomous Learning Matters

Project partner: Federal Ministry of Education and Research
Location: Bonn
Contact person: Prof. Dr. Claudia Wunderlich
Description: As part of the Teaching Quality Pact (QPL), this sub-project was aimed at improving the study conditions and pass rates of students. The sub-project focused on organising tutorials for students resitting exams (especially in the STEM fields, E-Learning, specialised translation of lecturers' lecture notes, the FHWS language base, autonomous learning of technical English, language learning and writing counselling (technical English).
Project period: 1 Jan 2017-31 Mar 2021

Roberta da Vinci

Project partner: Inhouse
Location: Schweinfurt
Contact person: Prof. Dr. Oliver Bletz-Siebert
Description: A robotic arm (Kuka LBR iiwa) and a camera are used to roughly sketch a picture. A project in the master's degree programme Applied Mathematics and Physics.
Project period: 14 Mar 2021-30 Sept 2021

2018

Calculation of RLCG parameters, RLCG 参数的计算方法

The magnetic flux density in an iron core with air gap is depicted.
Magnetic flux density in an iron core with air gap
Project partner: Bayerisches Hochschulzentrum für China
Prof. Min Zhang of Shanghai Jiao Tong University, CST China
Location: Bayreuth, Shanghai
Contact person: Prof. Dr. Georg Wimmer
Description: The efficient calculation of RLCG parameters from a finite element simulation is evaluated. The equation systems result from the discretisation of Maxwell's equations via interpolatory Sylvester-polynomials.
Project period: 2015 - 2018

2016

Development of a quality assurance concept for a 2D FEM Solver for electrostatic issues

Stress distribution in a cylindrical capacitor
Stress distribution in a cylindrical capacitor
Project partner: Bundeswehr Research Institute for Protective Technologies and CBRN Protection (WIS)
Location: Munster
Contact person: Prof. Dr. Georg Wimmer
Description: In this project, a quality assurance process for a finite element solver for calculating electrostatic issues is evaluated.
Project period: 1 Sept 2015 - 31 Dec 2016