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Strings
(2020)
This article presents the currently ongoing development of an audiovisual performance work with the title Strings. This work provides an improvisation setting for a violinist, two laptop performers, and two generative systems. At the core of Strings lies an approach that establishes a strong correlation among all participants by means of a shared physical principle. The physical principle is that of a vibrating string. The article discusses how this principle is used in both natural and simulated forms as main interaction layer between all performers and as natural or generative principle for creating audio and video.
Jahresbericht 2020
(2020)
Vulnerabilitätsanalyse "Hitzestress und menschliche Gesundheit" am Beispiel der Stadt Reutlingen
(2020)
In diesem Modellprojekt wird das Schutzgut "Menschliche Gesundheit" insbesondere unter dem Gesichtspunkt der im Rahmen des globalen Klimawandels zu erwartenden Überhitzung der Städte ("städtische Hitzeinseln") betrachtet.
In der Großstadt Reutlingen ("Tor zur Schwäbischen Alb/112.500 EW) mit ihrer Pfortenlage am Rande der Schwäbischen Alb und der Höhenlage (400-800 m) sowie der Bebauungsdichte werden bis 2050 bzw. 2100 (Strategie zur Anpassung an den Klimawandel Baden-Württemberg - Vulnerabilitäten und Klimaanpassungsmaßnahmen, 2015) die massivsten Auswirkungen bezüglich Aufenthaltsbehaglichkeit und Gesundheitsfolgen in Reutlingen erwartet.
Der Untersuchungsschwerpunkt liegt im Wirkungsbereich Mensch-Siedlung, d.h. in der Betrachtung von empfindlichen Bevölkerungspopulationen (z.B. ältere Menschen) und hitzeempfindlichen Nutzungsstrukturen (z.B. verdichteten städtischen Siedlungsflächen). Insbesondere die bereits in der abgeschlossenen Gesamtstädtischen Klimaanalyse ermittelten überwärmten Areale ("hot spots") und die im Rahmen des Klimawandels für 2020-2050 zukünftig zu erwartende Hitzestressbelastung bei empfindlichen Bevölkerungsgruppen in Stadtquartieren und Funktionsbauten, stehen im Zenit der Untersuchung.
Dabei wird über das Kriterium Empfindlichkeit (Basis sind z.B. quartierbezogene Datenstrukturen von Älteren, Einrichtungen wie Krankenhäuser, Kinderpflegeeinrichtungen, Alten- Behinderten- und Pflegeheime) die zukünftige Hitzestress-Belastung für Reutlingen erarbeitet. Weiteres wichtiges Kriterium ist die Betroffenheit nach Standortsituation (Höhenlage, Durchlüftungsverhältnisse, Bioklima/PMV = Maß für die bioklimatische Behaglichkeit) und die Anzahl hitzestressgeplagter Menschen (Kinder, Kranke, Ältere). Insbesondere für das Szenarium 2020 bis 2050 (s. Strategie zur Anpassung an den Klimawandel Baden-Württemberg - Vulnerabilitäten und Klimaanpassungsmaßnahmen, 2015) werden objekt- bzw. einrichtungsbezogen (z.B. Altenpflegeeinrichtungen) sowie quartiersspezifisch (Stadtstrukturtypen) die Auswirkungen bzw. Verwundbarkeiten erarbeitet. Dieser objektspezifische (bauklimatische) Ansatz, die innovative Indikatorenbildung zur situativen kommunalen Anwendbarkeit auch über Reutlingen hinaus sowie der partizipative Ansatz mit Nichtregierungsorganisationen (NGO´s) begründet den Modellcharakter ("Reutlinger Modell") dieser Untersuchung. Das Modellprojekt bildet das zweite Modul in einem dreiteiligen Klimaanpassungskonzept für die Stadt Reutlingen.
In dem durchgeführten Verbundvorhaben arbeiteten zum einen die Fachgebiete Geologie/Geothermie sowie Anlagen- und Systemtechnik von geothermischer Kältegewinnung und Kältenutzung der Projektpartner interdisziplinär zusammen, um den aktuellen Wissensstand der Kühlung mittels oberflächennaher Geothermie fachübergreifend zu erfassen, zu bewerten und Schnittstellenprobleme zu bearbeiten. Aus dieser interdisziplinären Betrachtungsweise wurden ganzheitliche Hinweise zur Optimierung des geothermischen Kühlpotenzials sowie Anstöße für technische und planerische Innovationen für die Praxis entwickelt und in diese transferiert.
Zu folgenden Zielen wurden Beiträge erarbeitet:
- Steigerung der Energieeffizienz der Kühlung und Kältebereitstellung
- Nutzung regenerativer Energien zur Kühlung und Kältebereitstellung
- Begrenzung der thermischen Belastung des Untergrunds und des Grundwassers
- Minimierung der Schäden und Risiken durch den Eingriff in den Untergrund
Editorial
(2020)
Editorial
(2020)
Editorial
(2020)
Editorial
(2020)
Rudolf E. Kaiser
(2020)
Editorial
(2020)
Many different methods, such as screen printing, gravure, flexography, inkjet etc., have been employed to print electronic devices. Depending on the type and performance of the devices, processing is done at low or high temperature using precursor- or particle-based inks. As a result of the processing details, devices can be fabricated on flexible or non-flexible substrates, depending on their temperature stability. Furthermore, in order to reduce the operating voltage, printed devices rely on high-capacitance electrolytes rather than on dielectrics. The printing resolution and speed are two of the major challenging parameters for printed electronics. High-resolution printing produces small-size printed devices and high-integration densities with minimum materials consumption. However, most printing methods have resolutions between 20 and 50 μm. Printing resolutions close to 1 μm have also been achieved with optimized process conditions and better printing technology.
The final physical dimensions of the devices pose severe limitations on their performance. For example, the channel lengths being of this dimension affect the operating frequency of the thin-film transistors (TFTs), which is inversely proportional to the square of channel length. Consequently, short channels are favorable not only for high-frequency applications but also for high-density integration. The need to reduce this dimension to substantially smaller sizes than those possible with today’s printers can be fulfilled either by developing alternative printing or stamping techniques, or alternative transistor geometries. The development of a polymer pen lithography technique allows scaling up parallel printing of a large number of devices in one step, including the successive printing of different materials. The introduction of an alternative transistor geometry, namely the vertical Field Effect Transistor (vFET), is based on the idea to use the film thickness as the channel length, instead of the lateral dimensions of the printed structure, thus reducing the channel length by orders of magnitude. The improvements in printing technologies and the possibilities offered by nanotechnological approaches can result in unprecedented opportunities for the Internet of Things (IoT) and many other applications. The vision of printing functional materials, and not only colors as in conventional paper printing, is attractive to many researchers and industries because of the added opportunities when using flexible substrates such as polymers and textiles. Additionally, the reduction of costs opens new markets. The range of processing techniques covers laterally-structured and large-area printing technologies, thermal, laser and UV-annealing, as well as bonding techniques, etc. Materials, such as conducting, semiconducting, dielectric and sensing materials, rigid and flexible substrates, protective coating, organic, inorganic and polymeric substances, energy conversion and energy storage materials constitute an enormous challenge in their integration into complex devices.
Learning to Walk With Toes
(2020)
This paper explains how a model-free (with respect to the robot model and the behavior to learn) approach can facilitate learning to walk from scratch. It is applied to a simulated Nao robot with toes. Results show an improvement of 30% in speed compared to a model without toes and also compared to our model-based approach, but with less stability.
Die Erfindung betrifft eine Schaltungsanordnung (10) für ein Kraftfahrzeug, mit einer Hochvolt-Batterie (12) zum Speichern von elektrischer Energie, mit wenigstens einer elektrischen Maschine (14) zum Antreiben des Kraftfahrzeugs, mit einem Stromrichter (16), mittels welchem von der Hochvolt-Batterie (12) bereitstellbare Hochvolt-Gleichspannung in Hochvolt-Wechselspannung zum Betreiben der elektrischen Maschine (14) umwandelbar ist, und mit einem Ladeanschluss (20) zum Bereitstellen von elektrischer Energie zum Laden der Hochvolt-Batterie (12), wobei der Stromrichter (16) als ein Drei-Stufen-Stromrichter ausgebildet ist und wenigstens eine einer Phase (u) der elektrischen Maschine (14) zugeordnete Schaltereinheit (46) aufweist, welche zwei in Reihe geschaltete Schaltergruppen (52, 54) umfasst, die jeweils zwei in Reihe geschaltete IGBTs (T11, T12, T13, T14) aufweisen, wobei zwischen den IGBTs (T11, T12) einer der Schaltergruppen (52, 54) ein Anschluss (64) angeordnet ist, welcher direkt mit einer Leitung (34) des Ladeanschlusses (20) elektrisch verbunden ist.
Das TMKB-Modell beschreibt einen Weg, den persönlichen und unternehmerischen Erfolg im beruflichen Alltag effizient und nachhaltig zu erreichen. Hierbei steht TMKB für den Transfer von Methoden und Kompetenzen in den Beruf. Dieses Modell beachtet die Theorien der Kompetenzentwicklung im Kontext realer Problemstellungen in Unternehmen. Beispielhaft wird das TMKB-Modell in der ersten Stufe mit dem Schwerpunkt Lean- und Projektmanagement erläutert. Die Zielgruppe dieses Ansatzes lässt sich über die der Auszubildenden bis hin zu Studierenden und Berufserfahrenen erweitern.
Supporting the COVID-19 response in Asia and the Pacific—The role of the Asian Development Bank.
(2020)
The COVID-19 pandemic has affected all countries of the Asia Pacific region over the last few months with far reaching economic, health and social consequences. To counter the impact, governments have accelerated their health spending and announced large macroeconomic stabilization and stimulus policy packages. As with past disasters and crises in the region, the Asian Development Bank has reacted with a number of targeted support interventions since the very early stages of the outbreak. In mid- April 2020, the Bank then put forward a comprehensive COVID-19 Response Package totalling $20 billion to support its member countries which rests on four pillars.
The last few months have proven that multilateral development banks like the Asian Development Bank have the ability to respond quickly and to mobilize significant resources for a global emergency like COVID-19. Whilst this financial supported is urgently needed at this point, attention will need to be paid on how debt sustainability for low- and middle-income countries can be ensured in the coming years. Given the unprecedented scale of and uncertainty around the COVID-19 pandemic, it may offer a window of opportunity to redesign the way developmental finance is coordinated and the way it is delivered. This also includes a chance to “build back better” and to focus on a sustainable, resilient and green recovery.
Africa was the last region to witness significant spread of the COVID-19. Nonetheless, it was expected that the continent would be hardest hit due to the fragility of its health and social infrastructure as well as the vulnerability of its economies. While the rates of infection and death were initially relatively low and contained economically, the continent was hard hit early on. Cuts in credit and trade services by international banks, along with a decline in export earnings, tourism receipts, and inward remittances, have severely constrained the ability of African countries to finance imports of essential goods and to service maturing debt obligations.
However, Africa has over time created mechanisms and institutions to help cushion its economies from the adverse consequences of global shocks. Among these institutions is Afreximbank, which emerged out of the debt crisis of the 1980s. This paper presents an overview of the Bank’s support to African countries in dealing with two major derivatives of the COVID-19 pandemic: the trade finance challenges resulting from cuts in international financial flows to the continent, and the health consequences of the pandemic.
In the work at hand, we state that privacy and malleability of data are two aspects highly desired but not easy to associate. On the one hand, we are trying to shape data to make them usable and editable in an intelligible way, namely without losing their initial information. On the other hand, we are looking for effective privacy on data such that no external or non-authorized party could learn about their content. In such a way, we get overlapping requirements by pursuing different goals; it is trivial to be malleable without being secure, and vice versa. We propose four “real-world” use cases identified as scenarios where these two contradictory features are required and taking place in distinct environments. These considered backgrounds consist of firstly, cloud security auditing, then privacy of mobile network users and industry 4.0 and finally, privacy of COVID-19 tracing app users. After presenting useful background material, we propose to employ multiple approaches to design solutions to solve the use cases. We combine homomorphic encryption with searchable encryption and private information retrieval protocol to build an effective construction for the could auditing use case. As a second step, we develop an algorithm to generate the appropriate parameters to use the somewhat homomorphic encryption scheme by considering correctness, performance and security of the respective application. Finally, we propose an alternative use of Bloom filter data structure by adding an HMAC function to allow an outsourced third party to perform set relations in a private manner. By analyzing the overlapping bits occurring on Bloom filters while testing the inclusiveness or disjointness of the sets, we show how these functions maintain privacy and allow operations directly computed on the data structure. Then, we show how these constructions could be applied to the four selected use cases. Our obtained solutions have been implemented and we provide promising results that validate their efficiency and thus relevancy.