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Interconnected Automation Systems (IAS)

At the Chair of Interconnected Automation Systems (IAS) at the University of Siegen, we drive basic and applied research on design automation of software and hardware to improve the reliability, efficiency and sustainability of modern cyber-physical infrastructures - from industrial and mechatronic systems to energy conversion applications and electrical power systems.

Abstracted electrical power representation

News from our working group

The most important news from the working group

All messages from the working group
© Daniel Marx
Gruppenfoto Siegerteam
Study

Team from Siegen and Paderborn wins international competition in power electronics

A joint team from the Universities of Siegen and Paderborn has won a research competition in the field of power electronics. They finished ahead of top international universities.

Das Lehrlabor hat eine neue technische Ausstattung bekommen.
General Public

New teaching laboratory strengthens engineering training in Siegen

The new electrical engineering teaching laboratory for networked automation systems has been opened at the University of Siegen. The rooms were extensively renovated and brought up to the latest technical standards at a cost of around 3 million euros.

Gruppenfoto der IAS-Doktorranden während des Doktorrandenseminars am 18.03.2026

IAS doctoral seminar

Internal and external IAS doctoral students meet for the first time for a joint chair seminar

Marvin und Hendrik
Campus Life

New employees at the IAS Chair

Gewinner_ETI_Adventsturnier

Sporty end to the year in the ETI department

Einladungsflyer
Beschäftigte
+ 1 more

ETI Advent table tennis tournament

The IAS team is pleased to invite you to this year's Advent table tennis tournament (see flyer). The organizational dates are:

  • December 17, 2025 starting at 16:00 in H-C 3305
  • Random doubles with draw of the pairs on site
  • Snacks and drinks will be provided

Both active players and spectators are cordially invited to the social get-together.

For better planning, we ask for feedback via https://terminplaner6.dfn.de/b/cf8b69bfba53d5d47d4aa4ed921ae6cf-1470146
for better planning.

meta-dq-dtc
Research

New IEEE Transaction on Power Electronics Publications on Meta-Reinforcement Learning

Together with our partners at the University of Paderborn, we recently published an article in IEEE Transactions on Power Electronics entitled “Universal Direct Torque Controller for Permanent Magnet Synchronous Motors via Meta-Reinforcement Learning.” The article addresses highly automated controller synthesis for any permanently excited synchronous drives and demonstrates how a control strategy learned using data-driven algorithms can be transferred from simulative training to real-world laboratory applications. The methodology and empirical investigation presented represent an important step toward the autonomous commissioning of power electronic systems in heterogeneous application contexts in order to achieve optimal system performance with minimal (human) effort.

 

Link to open access publication: https://ieeexplore.ieee.org/document/11263992

DOI: 10.1109/TPEL.2025.3635741

Mission statement

Portrait Oliver Wallscheid

We conduct rigorous, open and responsible research on interconnected automation systems and translate sound modeling, control and data-driven methods into trustworthy technologies that increase safety and reliability, reduce energy plus resource consumption and strengthen resilient infrastructures for the benefit of society. In teaching, we qualify engineers and researchers to combine a physical-analytical understanding of systems with computer-aided and data-oriented tools so that they can actively shape future generations of automation and energy systems.

Prof. Dr.-Ing. Oliver Wallscheid
Chair's head

Research profile

We research networked cyber-physical systems in industrial automation and mechatronics as well as in electrified energy technologies. Central fields of application are electric drives, power electronic converters, energy storage systems and charging infrastructures as well as networked electrical energy systems such as microgrids - with the aim of enabling more reliable, efficient and resilient operation under real operating conditions.

 

Our work covers the entire innovation chain from basic research to industrial transfer. A particular focus is on translating theoretical concepts into practical proof-of-concepts, supported by rapid software and hardware prototyping. Experimental validation, including targeted measurement campaigns on relevant test benches, is an integral part of our research process.

 

Open science is a cornerstone of our research practice. We publish open source software, reproducible workflows and other open resources to enable transparent evaluation, benchmarking and rapid knowledge transfer for students, researchers and industry partners. Our open source contributions can be found on GitHub: https://github.com/IAS-Uni-Siegen

Focus areas

  • Optimal control methods (e.g., reinforcement learning, differential predictive control)
  • Hardware design, optimization and testing of power electronic converters (component and system level)
  • Hybrid modeling and system identification (combination of expert and data knowledge)
  • Condition monitoring, diagnostics and digital twins (e.g. using fault and anomaly detection)
  • State and parameter estimation (observer, co-estimator)
  • Software-driven automation (reproducible design toolchains, verification and benchmarking)

Latest publications

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Conference paper
2023

Online system identification and excitation for thermal monitoring of electric machines using machine learning and model predictive control

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Other
2023

Time-Optimal Model Predictive Control of Permanent Magnet Synchronous Motors in the Whole Speed and Modulation Range Considering Current and Torque Constraints

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Preprint
2023

Finite Set Sensorless Control With Minimum a Priori Knowledge and Tuning Effort for Interior Permanent Magnet Synchronous Motors

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Preprint
2023

Real-World Approach for Evaluating Capacity Fading in Lithium-ion Batteries Using Novel Cyclic Testing Methods

Authors: Dr.-Ing. Bikash Sah et al.
Conference paper
2022

Learning Thermal Properties and Temperature Models of Electric Motors with Neural Ordinary Differential Equations

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Conference paper
2022

An Open-Source FEM Magnetic Toolbox for Calculating Electric and Thermal Behavior of Power Electronic Magnetic Components

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Other
2022

Finite Set Sensorless Control With Minimum a Priori Knowledge and Tuning Effort for Interior Permanent Magnet Synchronous Motors

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Journal article
2022

A Sustainable Rural Electrification based on Socio-Techno-Economic-Environmental-Political Microgrid Design Framework

Authors: Dr.-Ing. Bikash Sah et al.
Preprint
2022

Time-Optimal Model Predictive Control of Permanent Magnet Synchronous Motors Considering Current and Torque Constraints

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Journal article
2022

Data-Driven Adaptive Torque Oscillation Compensation for Multi-Motor Drive Systems

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Other
2022

Model Predictive Torque Control for Permanent Magnet Synchronous Motors Using a Stator-Fixed Harmonic Flux Reference Generator in the Entire Modulation Range

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.
Conference paper
2022

An Open-Source FEM Magnetics Toolbox for Power Electronic Magnetic Components

Authors: Prof. Dr.-Ing. Oliver Wallscheid et al.

Current projects

A list of all current projects of the working group

All current projects
Leistungselektronik
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DFG AutoMoLe

Our courses and theses

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Courses

In unisono you will find a list of courses in the current semester.

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Final theses

Are you interested in writing your thesis at our department? Click here for more information.

Information on theses

The team of the working group

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Profilbild Oliver Wallscheid

Prof. Dr.-Ing. Oliver Wallscheid

Chair holder
oliver.wallscheid@uni-siegen.de
+49 271 740 3357
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Lada luebke

Lada Lübke

Secretariat
IAS-office@eti.uni-siegen.de
+49 271 740-3305
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Bikash

Dr.-Ing. Bikash Sah

Academic Councillor
bikash.sah@uni-siegen.de
+49 271 740 4199
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Dr.-Ing. Thomas Schulte

Teacher
thomas.schulte@uni-siegen.de
+49 271 740-3308
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Ali Abdelwanis

Research assistant
ali.abdelwanis@uni-siegen.de
+49 271 740 4126
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Hölsch

Lukas Hölsch

Wissenschaftliche*r Mitarbeiter*in
lukas.hoelsch@uni-siegen.de
+49 271 740 3313
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Sack

Dr.-Ing. Andreas Sack

Research assistant
andreas.sack@uni-siegen.de
+49 271 740 3358
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Jung

Michael Jung

Technical and administrative staff
michael.jung@uni-siegen.de
+49 271 740-4198
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Malicki

Pawel Malicki M.Sc.

Technical employee
pawel.malicki@uni-siegen.de
+49 271 740-4197
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Wertebach

Alexander Wertebach

Technical and administrative staff
alexander.wertebach@uni-siegen.de
+49 271 740-3306
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Opening hours secretariat

Opening hours

Monday 09:00-13:00 Tuesday 09:00-13:00 Wednesday 09:00-13:00 Thursday 09:00-13:00 Friday 09:00-13:00

Postal address

University of Siegen
Chair of Interconnected Automation Systems (IAS)
Hölderlinstraße 3
57076 Siegen

Visitor address

University of Siegen
Chair of Interconnected Automation Systems (IAS)
H-A Level 4

Room: H-A 4106/3
Hölderlinstraße 3
57076 Siegen

Secretariat

Secretary: Lada Lübke
Phone: +49 (0)271 / 740-3305
Fax: +49 (0)271 / 740-13305

Room: H-A 4106/3
E-Mail: IAS-office@eti.uni-siegen.de

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