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The research group focuses on the characteristics in the land-and cityscapes of the Drielanden-zone, which contribute to generate common identities, as well as on those features that trigger differences and specificities of the adjacent countries that enrich the perception of the zone. In this research, the instruments of cartography and land survey system serve to detect and localize the fragmented appearance of relevant historic elements. These analytic procedures help to develop strategies for infrastructures and processes that gradually initiate local forms of cross-border tourism. The architectural research displays how top-down and bottom-up interventions can be combined in order to guarantee a sustainable use and development of the considered area.
Cento Tavole
(2016)
Concept - this is a key term in architectural discourse. However, all too often it is used imprecisely or merely for marketing purposes. What is a concept actually? This publication moves between design theory and design practice and follows the history of the definition of concept in architecture, leading to the formulation of a specifically instrumental and operative definition. It bases concept in architecture on its strategic potential in design decision-making processes. In the changing profession of the designing architect, decisions are increasingly made in multidisciplinary groups. Concept can serve as a dialogic instrument in the process, making it possible to process heterogeneous information from a range of spheres of knowledge. The effective presentation of selected information becomes a relevant interface in the design process, which has a significant influence on the quality of the design.
In the last decades, several hundred exoplanets could be detected thanks to space-based observatories, namely CNES’ COROT and NASA’s Kepler. To expand this quest ESA plans to launch CHEOPS as the f irst small class mission in the cosmic visions program (S1) and PLATO as the 3rd medium class mission, so called M3 . PLATO’s primary objective is the detection of Earth like Exoplanets orbiting solar type stars in the habitable zone and characterisation of their bulk properties. This is possible by precise lightcurve measurement via 34 cameras. That said it becomes obvious that accurate pointing is key to achieve the required signal to noise ratio for positive transit detection. The paper will start with a comprehensive overview of PLATO’s mission objectives and mission architecture. Hereafter, special focus will be devoted to PLATO’s pointing requirements. Understanding the very nature of PLATO’s pointing requirements is essential to derive a design baseline to achieve the required performance. The PLATO frequency domain is of particular interest, ranging from 40 mHz to 3 Hz. Due to the very different time-scales involved, the spectral pointing requirement is decomposed into a high frequency part dominated by the attitude control system and the low frequency part dominated by the thermo-elastic properties of the spacecraft’s configuration. Both pose stringent constraints on the overall design as well as technology properties to comply with the derived requirements and thus assure a successful mission.
Die Ausbildung von Biofilmen in technischen Anlagen, wie z. B. Kühlkreisläufen, Wasseraufbereitungssystemen und Bioreaktoren, führen zu Materialschäden (Biofouling) und stark erhöhtem Energieaufwand. Im Rahmen der aktuellen Forschungsarbeiten erfolgen aktive sowie passive Bio-Modifikationen auf funktionalisierten magnetischen Mikropartikelober-flächen. Um die verschiedenen funktionalisierten magnetischen Mikropartikel zu analysieren und ihre antimikrobielle Wirkung zu testen, wird der Einsatz einer 3D-gedruckten, magnetischen Plattform für ein Fluoreszenz-basiertes Screening-System untersucht. Für den Oberflächenschutz wurden verschiedene, antimikrobiell funktionalisierte Partikelkombinationen mit dem Mikroorganismus Escherichia coli GFPmut2 in Bezug auf aktiven Oberflächenschutz verglichen. Um die antimikrobielle Oberflächeneffekte von synergistischen Kombinationen unterschiedlich funktionalisierter Partikel zu bestimmen, werden Oberflächen einem Magnetfeld ausgesetzt, das die Mikropartikel als definierte Schicht auf ihnen zurück hält. Diese modifizierten Oberflächen können sowohl durch Fluoreszenzspektroskopie als auch -mikroskopie analysiert werden.
Mit der Entwicklung wässriger Tropfen, die mit einer schützenden Hülle magnetisierbarer, hydrophober Partikel umgeben sind, ergeben sich neue Möglichkeiten im Bereich der Mikrofluidik. So können die Tropfen als flüssige Mikroreaktoren eingesetzt werden. Der wässrige Kern dieser Mikroreaktoren besteht aus einer Substratlösung für enzymatische Umsetzungen. Durch Bewegen der Mikroreaktoren können diese über immobilisierten Enzymen positioniert werden, um so einen enzymatischen Umsatz innerhalb der Mikroreaktoren zu realisieren. Hierfür wurde eine neue Mikroreaktorplattform-Technologie etabliert. Die Mikroreaktoren können aufgrund ihrer magnetisierbaren Hüllenpartikel über elektromagnetische Spulen bewegt werden. Die Bewegung erfolgt dabei mit einer automatisierten Aktuatorplattform, bestehend aus einer 3x3 Doppelspulenmatrix mit Magnetkernen. Als modellhaftes Reaktionssystem wird eine Enzymkaskade eingesetzt, die sich aus einer b-Glucosidase, Glucose-Oxidase und Meerrettichperoxidase zusammensetzt. Primär untersuchte Substrate sind Fluorescein-di-b-D-glucopyranoside, und 1-(3,7-Dihydroxy-10H-phenoxazin-10-yl)-ethanon, bei deren Umsatz fluoreszierende Produkte entstehen.