600 Technik, Medizin, angewandte Wissenschaften
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With the expansion of IoT devices in many aspects of our life, the security of such systems has become an important challenge. Unlike conventional computer systems, any IoT security solution should consider the constraints of these systems such as computational capability, memory, connectivity, and power consumption limitations. Physical Unclonable Functions (PUFs) with their special characteristics were introduced to satisfy the security needs while respecting the mentioned constraints. They exploit the uncontrollable and reproducible variations of the underlying component for security applications such as identification, authentication, and communication security. Since IoT devices are typically low cost, it is important to reuse existing elements in their hardware (for instance sensors, ADCs, etc.) instead of adding extra costs for the PUF hardware. Micro-electromechanical system (MEMS) devices are widely used in IoT systems as sensors and actuators. In this thesis, a comprehensive study of the potential application of MEMS devices as PUF primitives is provided. MEMS PUF leverages the uncontrollable variations in the parameters of MEMS elements to derive secure keys for cryptographic applications. Experimental and simulation results show that our proposed MEMS PUFs are capable of generating enough entropy for a complex key generation, while their responses show low fluctuations in different environmental conditions.
Keeping in mind that the PUF responses are prone to change in the presence of noise and environmental variations, it is critical to derive reliable keys from the PUF and to use the maximum entropy at the same time. In the second part of this thesis, we elaborate on different key generation schemes and their advantages and drawbacks. We propose the PUF output positioning (POP) and integer linear programming (ILP) methods, which are novel methods for grouping the PUF outputs in order to maximize the extracted entropy. To implement these methods, the key enrollment and key generation algorithms are presented. The proposed methods are then evaluated by applying on the responses of the MEMS PUF, where it can be practically shown that the proposed method outperforms other existing PUF key generation methods.
The final part of this thesis is dedicated to the application of the MEMS PUF as a security solution for IoT systems. We select the mutual authentication of IoT devices and their backend system, and propose two lightweight authentication protocols based on MEMS PUFs. The presented protocols undergo a comprehensive security analysis to show their eligibility to be used in IoT systems. As the result, the output of this thesis is a lightweight security solution based on MEMS PUFs, which introduces a very low overhead on the cost of the hardware.
Decarbonisation Strategies in Energy Systems Modelling: APV and e-tractors as Flexibility Assets
(2023)
This work presents an analysis of the impact of introducing Agrophotovoltaic technologies and electric tractors into Germany’s energy system. Agrophotovoltaics involves installing photovoltaic systems in agricultural areas, allowing for dual usage of the land for both energy generation and food production. Electric tractors, which are agricultural machinery powered by electric motors, can also function as energy storage units, providing flexibility to the grid. The analysis includes a sensitivity study to understand how the availability of agricultural land influences Agrophotovoltaic investments, followed by the examination of various scenarios that involve converting diesel tractors to electric tractors. These scenarios are based on the current CO2 emission reduction targets set by the German Government, aiming for a 65% reduction below 1990 levels by 2030 and achieving zero emissions by 2045. The results indicate that approximately 3% of available agricultural land is necessary to establish a viable energy mix in Germany. Furthermore, the expansion of electric tractors tends to reduce the overall system costs and enhances the energy-cost-efficiency of Agrophotovoltaic investments.
Vorhofflimmern ist die häufigste tachykarde Herzrhythmusstörung weltweit. Dabei verliert das Herz seinen normofrequenten Sinusrhythmus und schlägt nicht mehr regelmäßig, sondern zu schnell und unregelmäßig. Vorhofflimmern ist normalerweise keine lebensbedrohliche Herzrhythmusstörung, aber es kann zu einem Schlaganfall führen. Die Ursache dieser Herzrhythmusstörung sind die Kreisende bzw. die fokalen Erregungen im linken Atrium, die hauptsächliche aus einer oder mehreren Pulmonalvenen kommen. Die übliche Therapieverfahren des Vorhofflimmerns ist die Pulmonalvenenisolation.
Diese Bachelorthesis beschäftigt sich daher mit der Modellierung unterschiedlicher linksatrialer Fokus-Modelle und intrakardialer Elektrodenkatheter für die Diagnostik und Terminierung von Vorhofflimmern mittels Pulmonalvenenisolation im Offenburger Herzrhythmusmodell nach Schalk, Krämer und Benke, welches in CST
Studio Suite realisiert wurde.
Zu Beginn wurden die verschiedenen linksatrialen fokalen Flimmerquellen modelliert und daraufhin simuliert. Hierbei wurde jeweils eine Simulation mit linksatrialen fokalen Flimmerquellen, die aus einzelnen, dualen oder allen vier Pulmonalvenen kommen, durchgeführt. Es wurde ebenfalls eine weitere Simulation mit Biosignalen (aus der Realität) erstellt. Mit diesen Simulationen konnte nun der elektrische Erregungsablauf sichtbar gemacht werden. Daraufhin wurden die Katheter für die Diagnostik und für die Pulmonalvenenisolation modelliert und in das bestehende Offenburger Herzrhythmusmodell integriert. Bei den Diagnostik-Kathetern handelte es sich um 10-polige Lasso® Katheter, zwei Varianten von PentaRay® NAV eco Katheter und 4-polige Diagnostik-Katheter „OSYPKA FINDER pure®“. Ablationskatheter sind zwei Varianten von Pentaspline Basket pose Katheter und HELIOSTAR™ Ablation Ballon. Abschließend wurden verschiedene Varianten von Isolationsverfahren der Pulmonalvenen modelliert und daraufhin die linksatrialen fokalen Flimmerquellen nach der Isolation der Pulmonalvenen simuliert.
The variable refrigerant flow system is one of the best heating, ventilation, and air conditioning systems (HVAC) thanks to its ability to provide thermal comfort inside buildings. But, at the same time, these systems are considered one of the most energy-consuming systems in the building sector. Thus, it is crucial to well size the system according to the building’s cooling and heating needs and the indoor temperature fluctuations. Although many researchers have studied the optimization of the building energy performance considering heating or cooling needs, using air handling units, radiant floor heating, and direct expansion valves, few studies have considered the use of multi-objective optimization using only the thermostat setpoints of VRF systems for both cooling and heating needs. Thus, the main aim of this study is to conduct a sensitivity analysis and a multi-objective optimization strategy for a residential building containing a variable refrigerant flow system, to evaluate the effect of the building performance on energy consumption and improve the building energy efficiency. The numerical model was based on the EnergyPlus, jEPlus, and jEPlus+EA simulation engines. The approach used in this paper has allowed us to reach significant quantitative energy saving by varying the cooling and heating setpoints and scheduling scenarios. It should be stressed that this approach could be applied to several HVAC systems to reduce energy-building consumption.
eLetter zum Artikel "Condiciones neuropsi-quiátricas y probable causa de muerte de Maurice Ravel" von Gómez-Carvajal AM, Botero-Meneses JS, Palacios-Espinosa X und Palacios-Sánchez L., veröffentlicht in Iatreia 35(3), Seite 341-8 (DOI: https://doi.org/10.17533/udea.iatreia.154).
Electrochemical pressure impedance spectroscopy (EPIS) has received the attention of researchers as a method to study mass transport processes in polymer electrolyte mem-brane fuel cells (PEMFC). It is based on analyzing the cell voltage response to a harmonic excitation of the gas phase pressure in the frequency domain. Several experiments with a single-cell fuel cell have shown that the spectra contain information in the frequency range typical for mass transport processes and are sensitive to specific operating condi-tions and structural fuel cell parameters. To further benefit from the observed features, it is essential to identify why they occur, which to date has not yet been accomplished. The aim of the present work, therefore, is to identify causal links between internal processes and the corresponding EPIS features.
To this end, the study follows a model-based approach, which allows the analysis of inter-nal states that are not experimentally accessible. The PEMFC model is a pseudo-2D model, which connects the mass transport along the gas channel with the mass transport through the membrane electrode assembly. A modeling novelty is the consideration of the gas vol-ume inside the humidifier upstream the fuel cell inlet, which proves to be crucial for the reproduction of EPIS. The PEMFC model is parametrized to a 100 cm² single cell of the French project partner, who provided the experimental EPIS results reproduced and in-terpreted in the present study.
The simulated EPIS results show a good agreement with the experiments at current den-sities ≤ 0.4 A cm–2, where they allow a further analysis of the observed features. At the lowest excitation frequency of 1 mHz, the dynamic cell voltage response approaches the static pressure-voltage response. In the simulated frequency range between 1 mHz – 100 Hz, the cell voltage oscillation is found to strongly correlate with the partial pressure oscillation of oxygen, whereas the influence of the water pressure is limited to the low frequency region.
The two prominent EPIS features, namely the strong increase of the cell voltage oscillation and the increase of phase shift with frequency, can be traced back via the oxygen pressure to the oscillation of the inlet flow rate. The phenomenon of the oscillating inlet flow rate is a consequence of the pressure change of the gas phase inside the humidifier and in-creases with frequency. This important finding enables the interpretation of experimen-tally observed EPIS trends for a variation of operational and structural fuel cell parame-ters by tracing them back to the influence of the oscillating inlet flow rate.
The separate simulation of the time-dependent processes of the PEMFC model through model reduction shows their individual influence on EPIS. The sluggish process of the wa-ter uptake by the membrane is visible below 0.1 Hz, while the charge and discharge of the double layer becomes visible above 1 Hz. The gas transport through the gas diffusion layer is only visible above 100 Hz. The simulation of the gas transport through the gas channel
without consideration of the humidifier becomes visible above 1 Hz. With consideration of the humidifier the gas transport through the gas channel is visible throughout the fre-quency range. The strong similarity of the spectra considering the humidifier with the spectra of the full model setup shows the dominant influence of the humidifier on EPIS.
A promising observation is the change in the amplitude relationship between the cell volt-age and the oxygen partial pressure oscillation as a function of the oxygen concentration in the catalyst layer. At a frequency where the influence of oxygen pressure on the cell voltage is dominant, for example at 1 Hz, the amplitude of the cell voltage oscillation could be used to indirectly measure the oxygen concentration in the catalyst layer.
In modernen Industrieautomatisierungssysteme kann die IT-Sicherheit nicht mehr ignoriert werden. Um dem Datenverkehr Schutz zu bieten, sind kryptografische Schutzmaßnahmen notwendig. Eine gängige Schutzmaßnahme ist die Verwendung von digitalen Zertifikaten zur Autorisierung und Authentifizierung. Um Zertifikate sicher und geregelt auf Endgeräte zu bringen, ist jedoch eine Public-Key-Infrastructure notwendig. Solche PKIs sind bisher wenig im Umfeld der Industrieautomatisierung untersucht. Das Institut für verlässliche Embedded-Systems der Hochschule Offenburg bietet hierfür eine mögliche Lösung, welche auf einer zentralen Einheit, genannt Credentialing Entity, basiert. Ein Demonstrator dieses Konzepts wurde bereits in den weit verbreiteten Systemprogrammier-sprachen C und C++ implementiert.
Im Rahmen dieser Arbeit wird die Verwendung der modernen speichersicheren Programmiersprache Rust in der Systemprogrammierung als Alternative zu den Domänenführern C/C++ am Beispiel der Implementierung der Credentialing-Entity untersucht. Hierbei werden Aspekte wie die Vorzüge Rusts, dessen Ökosystem und Interoperabilität mit den Marktführern C/C++ untersucht.
Diese Bachelorthesis befasst sich mit der Testung eines an der TU München entwickelten Biosignalverstärkers zur Registrierung von auditorisch evozierten Potentialen. Ziel dieses Projekts ist die Charakterisierung dieses Verstärkers. Dabei soll geprüft werden, ob der Verstärker AEPs registrieren und um verstellbare Faktoren verstärken kann. Dafür wurde eine MATLAB – Software implementiert, die es erlaubt über eine Soundkarte akustische Signale mittels Kopfhörer auszugeben und zeitgleich die vom Verstärker registrierten Potentiale einzulesen, zu Mitteln und sie grafisch darzustellen.
Erste Versuche wurden mit der Loop Back Box von Interacoustics, einem Schwingkreis, der einen künstlichen Patienten simuliert, durchgeführt. Diese Versuchsreihen zeigten, dass reale Signale gemessen werden. Anschließend konnten Probandenmessungen mit dem Verstärker und Referenzmessungen mit der Eclipse von Interacoustics durchgeführt werden. Bei sämtlichen Messreihen zeigte sich im Vergleich der beiden Systeme hohe Ähnlichkeit der Kurvenverläufe. Insbesondere das zeitliche Auftreten der Jewett V, der größten gemessenen Amplitude, war nahezu identisch. Allerdings stimmen die Amplitudenwerte nicht überein. Während die Amplitude der Jewett V bei Messungen mit der Eclipse um die 1µV erreichte, war die Amplitude beim Verstärker nur ein bis zwei Nanovolt groß. Damit ist die Verstärkung um ein tausendfaches geringer als bei der Eclipse.
Anhand der gewonnenen Erkenntnisse konnten Hardware technische Optimierungen evaluiert und diskutiert werden.
During the coronavirus crisis, labs had to be offered in digital form in mechanical engineering at short notice. For this purpose, digital twins of more complex test benches in the field of fluid energy machines were used in the mechanical engineering course, with which the students were able to interact remotely to obtain measurement data. The concept of the respective lab was revised with regard to its implementation as a remote laboratory. Fortunately, real-world labs were able to be fully replaced by remote labs. Student perceptions of remote labs were mostly positive. This paper explains the concept and design of the digital twins and the lab as well as the layout, procedure, and finally the results of the accompanying evaluation. However, the implementation of the digital twins to date does not yet include features that address the tactile experience of working in real-world labs.
During the coronavirus crisis, labs had to be offered in digital form in mechanical engineering at short notice. For this purpose, digital twins of more complex test benches in the field of fluid energy machines were used in the mechanical engineering course, with which the students were able to interact remotely to obtain measurement data. The concept of the respective lab was revised with regard to its implementation as a remote laboratory. Fortunately, real-world labs were able to be fully replaced by remote labs. Student perceptions of remote labs were mostly positive. This paper explains the concept and design of the digital twins and the lab as well as the layout, procedure, and finally the results of the accompanying evaluation. However, the implementation of the digital twins to date does not yet include features which address the tactile experience of working in real-world labs.