Teaching @ ISES
The members of the institute teach in all bachelor's and master's courses of the Faculty of Electrical Engineering and Information Technology. The main focus is on the two energy-related bachelor's degree programs in Renewable Energies - Electrical Engineering and Electrical Engineering - Electromobility and the master's degree in sSystems Engineering. Research and teaching are particularly closely linked in the Master of Applied Research in Engineering Sciences course.
In addition, ISES lecturers contribute to the professional foundation for sustainable development through courses in various programs such as the summer school of the university (Engineering for Sustainability), the advanced master's degree 4D - Modern Energy Systems and Mobility and the lecture series Lectures for Future to reach a wide range of interests.
| Title | Thesis | Name | Supervising professor | Cooperation partner | Year |
| MA | Quantification of multi-objective optimization approaches | Samantha Klier | Prof. Dr. Herbert Palm | ISES-LSY | WS20/21 |
| MA | Research on migration of an on-premises laboratory to the cloud | Gokhan Simsek (Secondary supervisor) |
Prof. Dr. Herbert Palm |
FK09 |
SS21 |
| MA | Process and tool chain for multi-criteria optimized design of municipal energy systems | Andreas Stadler | Prof. Dr. Herbert Palm | Landratsamt München und Gemeindeverwaltung Höhenkirchen-Siegertsbrunn | SS22 |
| MA | Intelligent automation in open barn operations | Michael Bittl | Prof. Dr. Herbert Palm | ISES-LSY | SS22 |
| MA | Autonomous Environment and Bee Monitoring | Benjamin Eibl | Prof. Dr. Herbert Palm | ISES-LSY | WS21/22 |
| MA | Implementation of a new process and tool chain for thermal management projects | Korbinian Ludwig | Prof. Dr. Herbert Palm | ISES-LSY | S22 |
| MA | Analysis and evaluation of the use of media and multimedia applications | Annalisa Deuber | Prof. Dr. Herbert Palm | Int - FK05 (Prof. Ley) | S22 |
| MRS | Empirical model for validated heat demand calculation | Dominic Mutzhas | Prof. Dr. Herbert Palm | ISES-LSY | WS23/24 |
| MA | Modular process and tool chain for multi-criteria optimization of state estimators for batteries through hyper-space exploration | Andreas Schuster | Prof. Dr. Herbert Palm | ISES-LSY | WS23/24 |
| MA | Control of grid-side inverters under any grid conditions | Christoph Göttsberger | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | WS20/21 |
| PaF | Machine identification & individual loss determination | Max Büttner | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | WS20/21 |
| BA | Design and implementation of a generic machine model | Tobias Tillmanns | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | WS20/21 |
| BA | Self-Commissioning of Synchronous Reluctance Machines | Hannes Mathias Geike | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | WS19/20 |
| MA | Construction and test of a multi-level converter | Alexander Wolfbauer | Prof. Dr.-Ing. Christoph Hackl | LMRES | WS19/20 |
| MA | Development of a model-based electrical machine emulator for three-phase synchronous machines | Michael Kressierer | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | SS20 |
| MA | Closed loop Control of grid-connected inverters under arbitrary conditions | Christoph Göttsberger | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | SS21 |
| MA | Optimal torque pre-control with the help of neural networks | Max Büttner | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | SS21 |
| BA | Electromagnetic design, modeling and dynamic simulation of a reluctance synchronous machine | Alexander Wegener | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | SS22 |
| MA | Flow observer of electrically excited synchronous machines | Bernd Pfeifer | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | SS23 |
| MA | Design and construction of a 3-level SiC converter in NPC back-to-back topology | Martin Lenz | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | SS23 |
| BA | Further development of a hardware setup and construction of an overall simulation of an engine test bench | Sabrina Endl | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | WS23/24 |
| BA | Investigation of the observability and sensorless control of a reluctance synchronous machine | Pascal Thiele | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | WS23/24 |
| BA | Development of a fault-tolerant modular multilevel converter (MMC) | Thomas Sageder | Prof. Dr.-Ing. Christoph Hackl | ISES-LMRES | WS23/24 |
| MA | Current carrying capacity of laser bond connections | Vien di Huynh | Prof. Dr.-Ing. Oliver Bohlen | LES | WS20/21 |
| BA | SOH estimation using a Kalman filter | Florian Schaeufl | Prof. Dr.-Ing. Oliver Bohlen | LES | SS21 |
| BA | Development of a hardware-in-the-loop test system for heterogeneous battery energy storage systems | Benedikt Saffert | Prof. Dr.-Ing. Oliver Bohlen | LES | WS20/21 |
| BA | Development and commissioning of a mechanical test bench for measuring pouch cells | Maximilian Schau | Prof. Dr.-Ing. Oliver Bohlen | LES | SS21 |
| MA | Development of a Battery Management System for an E-Bike | Stefan Brand | Prof. Dr.-Ing. Oliver Bohlen | LES | WS20/21 |
| MAF | Investigation of impedance-based temperature determination on Li-ion cells | Eren Durak | Prof. Dr.-Ing. Oliver Bohlen | LES | WS21/22 |
| MA | Implementation and investigation of distributed impedance spectroscopy | Christian Rosenmüller | Prof. Dr.-Ing. Oliver Bohlen | LES | SS21 |
| MAF | Design and Validation of a Modelica-based Battery System Model | Alexander Reiter | Prof. Dr.-Ing. Oliver Bohlen | LES | SS21 |
| BA | Design of a measuring board for impedance spectroscopy of demaged battery cells | Ludwig Mayr | Prof. Dr.-Ing. Oliver Bohlen | LES | SS19 |
| BA | Grid Connection of a Test Environment for Control Concepts in Heterogeneous Battery Storage Systems | Lukas Mutschlechner | Prof. Dr.-Ing. Oliver Bohlen | LES | SS19 |
| BA | Advancement of a measuring board for impedance spectroscopy of damaged battery cells | Katja Joana Lengfelder | Prof. Dr.-Ing. Oliver Bohlen | LES | SS20 |
| BA | Development of a modular Battery Management System | Michael Meiser | Prof. Dr.-Ing. Oliver Bohlen | LES | SS20 |
| BA | Integration of the BMS, development of the overall software for a stationary storage and system test | Thi Kieu Trang Tran | Prof. Dr.-Ing. Oliver Bohlen | LES | WS21/22 |
| MA | Impedance Measurement of Battery Modules using a Dynamic Synchronous Converter | Micha Zimmermann | Prof. Dr.-Ing. Oliver Bohlen | LES | SS20 |
| MAF | Load distribution strategy for inhomogenous batteries in stationary applications | Andreas Rozankovic | Prof. Dr.-Ing. Oliver Bohlen | LES | WS19/20 |
| BA | Development of a DCDC converter for the operation of lithium-ion batteries | Thomas Hierl | Prof. Dr.-Ing. Oliver Bohlen | LES | WS21/22 |
| BA | Detection of safety-relevant errors during charging processes of lithium-ion batteries in the field of micromobility | Jonas Ahlers | Prof. Dr.-Ing. Oliver Bohlen | LES | WS21/22 |
| BA | Capacity estimation of the traction batteries of used electric cars based on driving data | Kistler, Marco | Prof. Dr.-Ing. Oliver Bohlen | LES | SS22 |
| BA | Investigation of interactions between mechanical deformation and lithium plating on 18650 battery cells | Jonas Metzger | Prof. Dr.-Ing. Oliver Bohlen | LES | SS22 |
| MA | Development of an acceleration measurement system | Martin Rudolf Johannes Uhl | Prof. Dr.-Ing. Oliver Bohlen | LES | WS22/23 |
| MAF | Dual-Extended Kalman Filter for State of Charge and State of Health Estimation of Lithium-Ion Batteries and Modules | Florian Schaeufl | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | SS21 |
| BA | Performance evaluation of a Luenberger observer for state estimation in lithium-ion cells with NMC cathodes | Thomas Vu | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | SS22 |
| BA | Temperature control of a battery cell using a Peltier element | Tobias Hoch | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | SS22 |
| BA | Condition and parameter estimation of lithium-ion batteries | Lena Rügemer | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | WS22/23 |
| MEE | Development of standardized characterization processes for lithium-ion battery cells and systems | Han Wen Mok | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | WS22/23 |
| MEE | Multi-criteria optimization of operating strategies for stationary battery storage systems | Benedikt Saffert | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | WS22/23 |
| MEE | Model-based fault detection in the field of lithium-ion batteries | Stefan Brand | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | WS22/23 |
| MRS | Investigation of Impedance-based temperature determination on Li-ion Cells | Eren Durak | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | WS21/22 |
| BA | Implementation and investigation of the Görtzel algorithm using a HIL test bench | Jonas Rohfleisch | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | SS23 |
| BA | Analysis of aging influences on the impedance of Li-ion batteries | Fabian Karstaedt | Prof. Dr.-Ing. Oliver Bohlen | ISES-LES | WS23/24 |
| BA | Development of a Python-based tool for the design and layout of a complex PV-system | Anna Walter | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS19 |
| BA | Low Cost Electroluminescence | Daniel Brems | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| BA | Conception of a web interface to visualize the energy balance and documents of a school | Uwe Buchert | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS20/21 |
| MAF | Development of a simulation tool for the analysis of electrical energy systems | Carolin Vogel | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS20 |
| BA | Transformer Overcurrent Test Device | Josef El-Almani | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| MA | AC-DAB | Maximilian Fischer | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS21/22 |
| MA | High performance low cost Monitoring of solar power systems | Franz Kaiser | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS19/20 |
| BA | Evaluation and further development of a measurement system prototype for determining the state of consumers | Gabriel Goudschmidt | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| MA | Consumer identification by means of temporary individual measurement | Andreas Heinemann | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| BA | Autonomous measuring case | Josef Weber | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS21/22 |
| BA | Study about the construction of a solar simulator | Julian Hessel | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS20 |
| MA | Control strategies and prosumer behavior in an energy cell | Theresa Liegl | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS21/22 |
| BA | Analyzing the German Stromwende with Matlab | Mahmud Abuzahu | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS20 |
| BA | Electric Buses, State of the Art, Relevance for Bavaria | Markus Walther | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS19 |
| BA | Experimental proof of PV yield from vehicle-integrated PV cells | Matthias Gaida | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| BA | Simulative feasibility study of the Energy Harvesting at a current sensor | Maximilian Dinkel | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS19/20 |
| BA |
Development of an Automated Double Pulse Test System for Determining Switching Losses of Power Semiconductors |
Sebastian Mayer | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS19 |
| MA | Modeling of power electronic losses of the DC/AC Dual Active Bridge | Sebastian Mayer | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| MA | Energy cell | David Rampl | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS21/22 |
| BA | Embedded Systems - Development and planning of a display element for improved consumption monitoring of industrial plants | Korbinian Sattler | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| MA | Single-Stage AC/DC DAB for grid connected BESS | Jakob Vellinger | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| MA | Energy cell | Anna Walter | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS22 |
| MA | Development and implementation of an embedded Linux distribution for real-time consumer detection on a power measurement device | Yusuf Korkmaz | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS19/20 |
| BA | Comparative study of Bavarian sector coupling systems that are connected to the energy market | Kuhn, Luca | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS21 |
| BA | Experimental proof of PV yield from vehicle-integrated PV cells | Lukas Geschka | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS21/22 |
| BA | Development and realization of a flow power plant prototype | Leon Dietenberger | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS22 |
| BA | opEn im Partizipatcarsprozess | Lamine Gassama | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS22 |
| MA | Consumer identification by means of temporary individual measurement | Andreas Josef Heinemann | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS21/22 |
| MA | Implementation of statistical test planning for automatic hardware tests on an AC/DC converter | Sebastian Fischer | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS21/22 |
| BA | Modeling of P2G processes for the design of energy cells | Marco Uhlig | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS22 |
| MA | Optimization and design of a single-stage bidirectional AC/DC dual active bridge topology | Maximilian Mähringer | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS22/23 |
| MA | Implementation of a cross-sector prosumer model in opEn | David Rampl | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS22 |
| BA | Characterization of the dynamic equivalent parameters of novel high-frequency transformers for power electronic applications | Daniel Mädler | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS23 |
| BA | Modeling of generation-synchronous participation in large-scale renewable plants using the example of ebeRe in the district of Ebersberg | Peter Essendorfer | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS23/24 |
| BA | DC-Back2Back test bench extension and automation | Thomas Pongratz | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS23/24 |
| BA | Behavior of transformers in the resonant frequency range | Daniel Czech | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS23/24 |
| MA | Design and implementation of a second-life storage system with a total output of up to 10 kW | Roland Schick | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | SS23 |
| MA | Virtual coupling of producer and consumer system through a software infrastructure using the example of a photovoltaic system | Korbinian Sattler | Prof. Dr.-Ing. Simon Schramm | ISES-LSE | WS23/24 |
| BA | Analysis of measurement data used for controlling storage heater within the distribution network | Maximilian Weng | Prof. Dr.-Ing. Stephanie Uhrig | ISES-LSE | WS20/21 |
| BA | Suitability analysis of private laods | Axel Gramlich | Prof. Dr.-Ing. Stephanie Uhrig | ISES-LSE | SS20 |
| BA | Optimization of algorithms for the intelligent control of flexible loads | Mehdi Sassi | Prof. Dr.-Ing. Stephanie Uhrig | ISES-LSE | WS20/21 |
| MAF | Development of a power grid model in Modelica | Veronika Barta | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | SS20 |
| MAF | Verification of the process to identify the base case of electrical energy systems | Marcel Eggemann | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | SS20 |
| MA | FRA Measurements on rotating machines | Jeannick Numbi Wa Mwila | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | SS22 |
| BA | Frequency response analysis on rotating machines | Manuel Müller | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | SS22 |
| BA | Analysis of the transferability of a decentralized load management concept to European countries | Thaddäus Weindl | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS22/23 |
| BA | Communication channels for low-voltage controls | Amon Hofmann | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | SS23 |
| BA | Transferability of the FLAIR2 concept to commercial applications in low and medium voltage | Lukas Löhr | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS22/23 |
| BA | Frequency response on rotating machines - model parameterization for different machine types and performance classes | Sandra Plötz | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | SS23 |
| BA | Frequency response on rotating machines - implementation and investigation of different artificial errors | Tobias Rieder | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS22/23 |
| BA | Optimization of the parameterization of an algorithm for controlling flexible loads in low voltage | Susar Hakar | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS22/23 |
| MA | Clustering of network types through machine learning | Clemens du Bellier | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS22/23 |
| MA | Development (and implementation) of a concept for testing and evaluating algorithms in the FLAIR2 project | Armin Dulisch | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS22/23 |
| MA | Analysis and evaluation of potential and existing means of communication in low-voltage grid control | Amon Hofmann | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS23/24 |
| BA | Frequency response analysis on a 3 kW asynchronous machine with slip ring rotor | Maximilian Plieninger | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | SS23 |
| BA | Parameters for characterizing the voltage curve in the low voltage | Johannes Eßer | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS23/24 |
| BA | Checking the frequency response analysis for an asynchronous machine with broken bars in the squirrel cage rotor | Simon Miller | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS23/24 |
| BA | Error implementation and analysis - Frequency response on a rotating machine | Nergis Polat | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS23/24 |
| BA | Analysis of the interactions between on-load tap-changers in power transformers and the FLAIR algorithm in low voltage | Christoph Huber | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS23/24 |
| BA | Application and improvement of an existing model parameterization for frequency responses of rotating machines | Melik Can Avci | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS23/24 |
| MA | Conceptual design of a simulation process to analyze the influence of decentrally controlled consumers on the low-voltage grid | Matthias Gaida | Prof. Dr.-Ing. Stephanie Uhrig | ISES-L3E | WS23/24 |
| BA | Development of a central control unit for an electric scooter | Maximilian Kleemann | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS21/22 |
| BA | Development of a DSP board for power electronics | Yahia Al Nahawandi | Prof. Dr.-Ing Marek Galek | ISES-LLE | SS22 |
| BA | Test vehicle for electromobility | Georg Postel | Prof. Dr.-Ing Marek Galek | ISES-LLE | SS22 |
| BA | Development of a current clamp based on industrial current sensors | Muhammed Yildizhan | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS22/23 |
| BA | Construction and commissioning of a high-voltage battery management system | Martin Hübner | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS22/23 |
| MA | Development/commissioning of a battery-powered 2 kV DC/DC converter for use in a modular HV voltage source | Sebastian Ruping | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS21/22 |
| MA | Design and development of an active common mode filter | Philipp Anzinger | Prof. Dr.-Ing Marek Galek | ISES-LLE | SS22 |
| MA | Ethercat based control of power electronics with real-time Linux implemented on an experimental two-level inverter | Niklas Krug | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS22/23 |
| BA | Development of a DCDC converter for charging a lithium-ion battery | Luis Pahnke | Prof. Dr.-Ing Marek Galek | ISES-LLE | SS23 |
| BA | Commissioning of an SMT placement machine for automated placement of electronic components | Christian Liebhart | Prof. Dr.-Ing Marek Galek | ISES-LLE | SS23 |
| BA | Revision, commissioning and testing of a high-voltage power supply for radiotherapy | Leon Reuter | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS23/24 |
| BA | An isolated auxiliary power supply with integrated bidirectional communication | Sondre Slavik | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS23/24 |
| BA | Development of a motor control unit for a drive converter Inverter in the low-voltage range | Vincent Welsch | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS23/24 |
| BA | Development of a user concept and a graphical user interface for a distributed measurement system | Aylin Kilic | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS23/24 |
| BA | Development and construction of a low-voltage inverter with particularly high power density based on high-current printed circuit boards | Samuel Daum | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS23/24 |
| MA | Development of a rapid control prototyping platform for the control of power electronic systems | Mario Wasner | Prof. Dr.-Ing Marek Galek | ISES-LLE | WS23/24 |
| MA | Modeling and simulation of energy management for a real stand-alone grid | Benedikt Keitel | Prof. Dr.-Ing Georg Kerber | ISES-L3E | WS23/24 |