Refine
Document Type
- Conference proceeding (273)
- Journal article (153)
- Book chapter (23)
- Book (22)
- Patent / Standard / Guidelines (15)
- Report (9)
- Doctoral Thesis (7)
- Working Paper (5)
- Anthology (2)
Is part of the Bibliography
- yes (509)
Institute
- Technik (509) (remove)
Publisher
- IEEE (140)
- Springer (26)
- Elsevier (22)
- VDE Verlag GmbH (18)
- VDE Verlag (15)
- Hochschule Ulm (12)
- Hochschule Reutlingen (9)
- ACM (8)
- MDPI (7)
- Arbeitsgemeinschaft Simulation (ASIM) (6)
Despite the unstoppable global drive towards electric mobility, the electrification of sub-Saharan Africa’s ubiquitous informal multi-passenger minibus taxis raises substantial concerns. This is due to a constrained electricity system, both in terms of generation capacity and distribution networks. Without careful planning and mitigation, the additional load of charging hundreds of thousands of electric minibus taxis during peak demand times could prove catastrophic. This paper assesses the impact of charging 202 of these taxis in Johannesburg, South Africa. The potential of using external stationary battery storage and solar PV generation is assessed to reduce both peak grid demand and total energy drawn from the grid. With the addition of stationary battery storage of an equivalent of 60 kWh/taxi and a solar plant of an equivalent of 9.45 kWpk/taxi, the grid load impact is reduced by 66%, from 12 kW/taxi to 4 kW/taxi, and the daily grid energy by 58% from 87 kWh/taxi to 47 kWh/taxi. The country’s dependence on coal to generate electricity, including the solar PV supply, also reduces greenhouse gas emissions by 58%.
Im Team zum fliegenden Traum
(2024)
Wave-like differential equations occur in many engineering applications. Here the engineering setup is embedded into the framework of functional analysis of modern mathematical physics. After an overview, the –Hilbert space approach to free Euler–Bernoulli bending vibrations of a beam in one spatial dimension is investigated. We analyze in detail the corresponding positive, selfadjoint differential operators of 4-th order associated to the boundary conditions in statics. A comparison with free string wave swinging is outlined.
In kleinen und mittleren Unternehmen (KMU) werden Energieeffizienz-Potentiale in geringerem Maße ausgeschöpft als in Großunternehmen. Zugleich bilden KMU den überwältigenden Anteil deutscher Unternehmen. Die Steigerung der Energieeffizienz verspricht einen substanziellen Beitrag zur Umweltentlastung. Energiemanagement wird gemeinhin als wesentlicher Treiber von Energieeffizienz Maßnahmen in Deutschland betrachtet. Im Kontext von Unternehmen wird Energiemanagement üblicherweise synonym mit dem Energiemanagement-standard ISO 50001 betrachtet. Problematisch zeigt sich diese Perspektive mit Blick auf KMU, für die eine aufwändige Implementierung eines solchen System in den überwiegenden Fällen nicht infrage kommt. Vor diesem Hintergrund darf sich eine Förderung von Energiemanagement in KMU jedoch nicht entmutigen lassen. Im Rahmen des Projekts wurde ein bedarfsgerechtes und an den Bedürfnissen von KMU orientiertes Konzept von Energiemanagement für KMU entwickelt. Die Ausarbeitung erfolgte in einem sogenannten Reallabor, das gleichsam als Partner-Netzwerk die Ergebnisse des Projekts kooperativ produziert hat. Das Reallabor setzte sich zusammen aus den koordinierenden Partnern aus der Wissenschaft (REZ Hochschule Reutlingen, Institut für Energieeffizienz in der Produktion EEP), sechs KMU aus der Region Reutlingen und einem Sounding-Board bestehend aus vier weiteren Partnern.
Im Rahmen des Reallabors wurden jene Bausteine definiert, die Energiemanagement für KMU ausmachen. Sensibilität und Basiswissen ist für KMU unumgänglich in den Bereichen: 1. Motivation für Energieeffizienz & Klimaneutralität, 2. Organisation-Entscheiden-Verhalten, 3. Energie-Daten Management und 4. Energieeffizienz-Maßnahmen (Querschnitt-Technologien). Den vier festgelegten Bausteinen wurden unterschiedliche Inhalte Schwerpunkte zugeordnet. Die Bausteine und Schwerpunkte wurden jeweils begründet und mit konkreten Lehr-, Lern- und Sensibilisierungszielen benannt. Parallel zur Festlegung der Bausteine und Schwerpunkte von Energiemanagement wurden Lehr-, Lern- und Sensibilisierungs-Materialien ausgearbeitet, bestehend aus Leitfäden und Checklisten. Die Ausarbeitung wurde jeweils mit Themen-Workshops parallel begleitet. Die entwickelten Lehr-, Lern- und Sensibilisierungs-Materialien wurden in und mit den Partnerunternehmen getestet. Alle Materialien stehen mit Abschluss des Projekts für die Verbreitung zur freien Verfügung.
Der zukünftige Beitrag zur Umweltentlastung hängt von der breiten Umsetzung außerhalb des Projektkontexts ab. Die Sensibilisierung und Qualifizierung für Energiemanagement schafft eine nachhaltige Energiesparkultur in KMU. Eine breite Anwendung des entwickelten Konzepts im Rahmen von moderierten Unternehmens-Netzwerken fördert die nachhaltige Befähigung von KMU Energieeffizienz zu planen und umzusetzen.
AI-based prediction and recommender systems are widely used in various industry sectors. However, general acceptance of AI-enabled systems is still widely uninvestigated. Therefore, firstly we conducted a survey with 559 respondents. Findings suggested that AI-enabled systems should be fair, transparent, consider personality traits and perform tasks efficiently. Secondly, we developed a system for the Facial Beauty Prediction (FBP) benchmark that automatically evaluates facial attractiveness. As our previous experiments have proven, these results are usually highly correlated with human ratings. Consequently they also reflect human bias in annotations. An upcoming challenge for scientists is to provide training data and AI algorithms that can withstand distorted information. In this work, we introduce AntiDiscriminationNet (ADN), a superior attractiveness prediction network. We propose a new method to generate an unbiased convolutional neural network (CNN) to improve the fairn ess of machine learning in facial dataset. To train unbiased networks we generate synthetic images and weight training data for anti-discrimination assessments towards different ethnicities. Additionally, we introduce an approach with entropy penalty terms to reduce the bias of our CNN. Our research provides insights in how to train and build fair machine learning models for facial image analysis by minimising implicit biases. Our AntiDiscriminationNet finally outperforms all competitors in the FBP benchmark by achieving a Pearson correlation coefficient of PCC = 0.9601.
This article proposes several modified quasi Z-source dc/dc boost converters. These can achieve soft-switching by using a clamp-switch network comprised of an active switch and a diode in parallel with a capacitor connected across one of the inductors of the Z-source network. In this way, ringing at the transistor switching node is mitigated, and the voltage at the turn-on of the transistor is reduced. Even a zero voltage switching (ZVS) of the main transistor is possible if the capacitor in the clamp-switch network is adequately chosen. The proposed circuit structure and operating mode are described and validated through simulations and measurements on a low-power prototype.
The increase in distributed energy generation, such as photovoltaic systems (PV) or combined heat and power plants (CHP), poses new challenges to almost every distribution network operator (DNO). In the low-voltage (LV) grids, where installed PV capacity approaches the magnitude of household load, reverse power flow occurs at the secondary substa-tions. High PV penetration leads to voltage rise, flicker and loading problems. These problems have been addressed by the application of various techniques amongst which is the deployment of step voltage regulators (SVR). SVR can solve the voltage problem, but do not prevent or reduce reverse power flows. Therefore, the application of SVR in low voltage grids can result in significant power losses upstream. In this paper we present part of a research project investi-gating the application of remote-controlled cable cabinets (CC) with metering units in a low-voltage network as a possible alternative for SVR. A new generation of custom-made remote-control cable cabinets has been deployed and dynamic network reconfigurations (NR) have been realized with the following objectives: (i) reduction of reverse power flow through the secondary substation to the upstream network and therefore a reduction of upstream losses, (ii) reduction of the voltage rise caused by distributed energy resources and (iii) load balancing in the low-voltage grid. Secondary objec-tives are to improve the DNO's insight into the state of the network and to provide further information on future smart grid integration.
Werkzeugmaschinen sind im Bereich des Maschinen- und Anlagenbau die größte Branche, mit denen auch in Unternehmen anderer Bereiche (z. B. Automobilbau, Aerospace) wesentliche Teile der Bruttowertschöpfung stattfinden. (Destatis, 2022) Das dynamische Verhalten von Werkzeugmaschinen beeinflusst in entscheidendem Maße die Produktivität der Produktionsanlage und die Qualität der darauf erzeugten Werkstücke. Sowohl fremderregte Schwingungen (z. B. Unwucht, Pulsation, periodisch schwankende Prozesskräfte) als auch selbsterregte Schwingungen (z. B. Rattern) führen zu schlechter Qualität der gefertigten Bauteile. Das dynamische Verhalten vonWerkzeugmaschinen wird durch die Masse, Dämpfung und Steifigkeit der einzelnen Komponenten (z. B. Maschinenbett, Ständer, Schlitten) als auch der im Kraftfluss liegenden Fügestellen (z. B. Führungen, Antriebe) beeinflusst. In diesem Beitrag werden die Auswirkungen von konstruktiven Modifikationen der Dämpfung in Gestellbauteilen bezüglich des dynamischen Verhaltens an der Zerspanstelle näher beleuchtet.
In recent years, 3D facial reconstructions from single images have garnered significant interest. Most of the approaches are based on 3D Morphable Model (3DMM) fitting to reconstruct the 3D face shape. Concurrently, the adoption of Generative Adversarial Networks (GAN) has been gaining momentum to improve the texture of reconstructed faces. In this paper, we propose a fundamentally different approach to reconstructing the 3D head shape from a single image by harnessing the power of GAN. Our method predicts three maps of normal vectors of the head’s frontal, left, and right poses. We are thus presenting a model-free method that does not require any prior knowledge of the object’s geometry to be reconstructed.
The key advantage of our proposed approach is the substantial improvement in reconstruction quality compared to existing methods, particularly in the case of facial regions that are self-occluded in the input image. Our method is not limited to 3d face reconstruction. It is generic and applicable to multiple kinds of 3D objects. To illustrate the versatility of our method, we demonstrate its efficacy in reconstructing the entire human body.
By delivering a model-free method capable of generating high-quality 3D reconstructions, this paper not only advances the field of 3D facial reconstruction but also provides a foundation for future research and applications spanning multiple object types. The implications of this work have the potential to extend far beyond facial reconstruction, paving the way for innovative solutions and discoveries in various domains.
The aim of this work is the development of artificial intelligence (AI) application to support the recruiting process that elevates the domain of human resource management by advancing its capabilities and effectiveness. This affects recruiting processes and includes solutions for active sourcing, i.e. active recruitment, pre-sorting, evaluating structured video interviews and discovering internal training potential. This work highlights four novel approaches to ethical machine learning. The first is precise machine learning for ethically relevant properties in image recognition, which focuses on accurately detecting and analysing these properties. The second is the detection of bias in training data, allowing for the identification and removal of distortions that could skew results. The third is minimising bias, which involves actively working to reduce bias in machine learning models. Finally, an unsupervised architecture is introduced that can learn fair results even without ground truth data. Together, these approaches represent important steps forward in creating ethical and unbiased machine learning systems.
Der Erfolg der Energiewende in Deutschland setzt eine zunehmende Anzahl an dezentralen elektrischen Erzeugungsanlagen (EZA) voraus. Diese dezentralen EZA, wie Photovoltaikanlagen oder Blockheizkraftwerke, bringen für Verteilnetzbetreiber große Herausforderungen mit sich. Im Rahmen des geförderten Forschungsprojekts „Demonstrator Automatisierte Kabelverteil (KV) als Alternative zum regelbaren Ortsnetztransformator (DEMO rONT-Alternative)“ wurde ein neuer Ansatz für die Lösung der bestehenden Problematik erforscht. Dieser besteht in der aktiven Änderung der Topologie der Netzgebiete je nach elektrischer Last und PV-Einspeisung (Trennstellenverlagerung).
Silicon neurons represent different levels of biological details and accuracies as a trade-off between complexity and power consumption. With respect to this trade-off and high similarity to neuron behaviour models, relaxation-type oscillator circuits often yield a good compromise to emulate neurons. In this chapter, two exemplified relaxation-type silicon neurons are presented that emulate neural behaviour with energy consumption under the scale of nJ/spike. The first proposed fully CMOS relaxation SiN is based on mathematical Izhikevich model and can mimic a broad range of physiologically observable spike patterns. The results of kinds of biologically plausible output patterns and coupling process of two SiNs are presented in 0.35 μm CMOS technology. The second type is a novel ultra-low-frequency hybrid CMOS-memristive SiN based on relaxation oscillators and analog memristive devices. The hybrid SiN directly emulates neuron behaviour in the range of physiological spiking frequencies (less than 100 Hz). The relaxation oscillator is implemented and fabricated in 0.13 μm CMOS technology. An autonomous neuronal synchronization process is demonstrated with two relaxation oscillators coupled by an analog memristive device in the measurement to emulate the synchronous behaviour between spiking neurons.
We present the results of an extensive characterization of the performance and stability of a third-order continuous-time delta-sigma modulator with active coefficient error compensation. Using our previously published coefficient tuning technique, process variation induced R-C time-constant (TC) errors in the forward signal path can be compensated indirectly using continuously tunable DACs in the feedback path. To validate our technique experimentally with a range of real TC variations, we designed a modulator with discretely configurable integration capacitor arrays in a 0.35-μm CMOS process. We configured the capacitors of the fabricated device for a range of total TC variations from -28.4 % to +19.3 % and measured the signal-to-noise ratio (SNR) as a function of the input amplitude before and after compensating the variations electrically using the feedback DACs. The results show that our tuning technique is capable of restoring the desired nominal modulator performance over the entire parameter variation range, including the system’s nominal maximum stable amplitude (MSA).
Verteilnetzbetreiber müssen verschiedene Maßnahmen ergreifen, um den Herausforderungen der zunehmenden Installation dezentraler Erzeugungsanlagen zu begegnen. Die meisten dieser Maßnahmen führen zwar zur Einhaltung der Spannungsgrenzwerte, sie läsen jedoch nicht das Problem der Rückspeisung in die überlagerte Netzebene und die damit verbundenen Leistungsverluste. Im Projekt „Demo-rONT-Alternative“ wurde ein Prototyp für einen fernsteuerbaren Kabelverteiler entwickelt, um die Trennstellenverschiebung automatisiert durchführen zu können.
Simulation eines dezentralen Regelungssystems zur netzdienlichen Erzeugung von grünem Wasserstoff
(2023)
Wasserstoff wird einen bedeutenden Beitrag zum Wandel von Industrie und Gesellschaft in eine klimaneutrale Zukunft leisten. Der Aufbau und die ökologisch und ökonomisch sinnvolle Nutzung einer Wasserstoffinfrastruktur sind hierbei die zentralen Herausforderungen. Ein notwendiger Baustein ist die effiziente Bereitstellung von grünem Strom und dem daraus produzierten grünen Wasserstoff. Der vorliegende Beitrag stellt ein dezentrales Regel- und Kommunikationssystem vor, mit dem Angebot und Nachfrage von grünem Strom und Wasserstoff in einem System aus dezentralen Akteuren in Einklang gebracht werden. In einer hierzu entwickelten Simulationsumgebung wird die Funktion und der Nutzen dieses dezentralen Ansatzes verdeutlicht.
As fuel prices climb and the global automotive sector migrates to more sustainable vehicle technologies, the future of South Africa’s minibus taxis is in flux. The authors’ previous research has found that battery electric technology struggles to meet all the mobility requirements of minibus taxis. They investigate the technical feasibility of powering taxis with hydrogen fuel cells instead. The following results are projected using a custom-built simulator, and tracking data of taxis based in Stellenbosch, South Africa. Each taxi requires around 12 kg of hydrogen gas per day to travel an average distance of 360 km. 465 kWh of electricity, or 860 m2 of solar panels, would electrolyse the required green hydrogen. An economic analysis was conducted on the capital and operational expenses of a system of ten hydrogen taxis and an electrolysis plant. Such a pilot project requires a minimum investment of € 3.8 million (R 75 million), for a 20 year period. Although such a small scale roll-out is technically feasible and would meet taxis’ performance requirements, the investment cost is too high, making it financially unfeasible. They conclude that a large scale solution would need to be investigated to improve financial feasibility; however, South Africa’s limited electrical generation capacity poses a threat to its technical feasibility. The simulator is uploaded at: https://gitlab.com/eputs/ev-fleet-sim-fcv-model.
Dieses Buch vermittelt die grundlegenden Kenntnisse für den Layoutentwurf digitaler und analoger Schaltungen. Neben den ingenieurwissenschaftlichen Grundlagen werden auch Werkzeugaspekte behandelt. Das Werk befähigt Ingenieure, einen Schaltplan oder eine Netzliste in eine Layoutdarstellung zur Fertigung eines integrierten Schaltkreises (IC) oder einer Leiterplatte umzusetzen. Nach einer einleitenden Übersicht zu Fertigungstechnologien, Besonderheiten der Mikroelektronik und den Aufgaben des Layoutentwurfs behandelt Kap. 2 zunächst die technologischen Grundlagen der IC-Fertigung. Darauf aufbauend werden nachfolgend alle Aspekte des Layoutentwurfs vertieft: Schnittstellen, Entwurfsregeln und Bibliotheken (Kap. 3), Entwurfsstile, -modelle und -flüsse (Kap. 4), Entwurfsschritte (Kap. 5), Besonderheiten des analogen IC-Entwurfs (Kap. 6) und schließlich Zuverlässigkeitsmaßnahmen (Kap. 7). Das Buch eignet sich als Lehrbuch in den Ingenieurwissenschaften und als Nachschlagewerk für Schaltungs- und Layoutentwickler in der Industrie.
Analog integrated circuit sizing is notoriously difficult to automate due to its complexity and scale; thus, it continues to heavily rely on human expert knowledge. This work presents a machine learning-based design automation methodology comprising pre-defined building blocks such as current mirrors or differential pairs and pre-computed look-up tables for electrical characteristics of primitive devices. Modeling the behavior of primitive devices around the operating point with neural networks combines the speed of equation-based methods with the accuracy of simulation-based approaches and, thereby, brings quality of life improvements for analog circuit designers using the gm/Id method. Extending this procedural automation method for human design experts, we present a fully autonomous sizing approach. Related work shows that the convergence properties of conventional optimization approaches improve significantly when acting in the electrical domain instead of the geometrical domain. We, therefore, formulate the circuit sizing task as a sequential decision-making problem in the alternative electrical design space. Our automation approach is based entirely on reinforcement learning, whereby abstract agents learn efficient design space navigation through interaction and without expert guidance. These agents’ learning behavior and performance are evaluated on circuits of varying complexity and different technologies, showing both the feasibility and portability of the work presented here.
In the course of a more intensive energy generation from regenerative sources, an increased number of energy storages is required. In addition to the widespread means of storing electric energy, storing energy thermally can contribute significantly. However, limited research exists on the behaviour of thermal energy storages (TES) in practical operation. While the physical processes are well known, it is nevertheless often not possible to adequately evaluate its performance with respect to the quality of thermal stratification inside the tank, which is crucial for the thermodynamic effectiveness of the TES. The behaviour of a TES is experimentally investigated in cyclic charging and discharging operation in interaction with a cogeneration (CHP) unit at a test rig in the lab. From the measurements the quality of thermal stratification is evaluated under varying conditions using different metrics such as normalised stratification factor, modified MIX number, exergy number and exergy efficiency, which extends the state of art for CHP applications. The results show that the positioning of the temperature sensors for turning the CHP unit on and off has a significant influence on both the effective capacity of a TES and the quality of thermal stratification inside the tank. It is also revealed that the positioning of at least one of these sensors outside the storage tank, i.e. in the return line to the CHP unit, prevents deterioration of thermal stratification, thereby enhancing thermodynamic effectiveness. Furthermore, the effects of thermal load and thermal load profile on effective capacity and thermal stratification are discussed, even though these are much smaller compared to the effect of positioning the temperature sensors.