Sammlung_FB 16
Permanent URI for this collectionhttps://vhrz2219.hrz.uni-marburg.de/handle/123456789/29
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Research Data Additional BDD100K Context AnnotationsHeidecker, Florian; Fuchs, Erich; Sick, Bernhard; Susetzky, TobiasResearch Data Dataset of a parameterized U-bend flow for Deep Learning ApplicationsDecke, Jens; Wünsch, Olaf; Sick, BernhardResearch Data Frequency selective illumination for high aperture coherence scanning interferometry [Dataset](Universität Kassel) Künne, Marco; Lehmann, Peter; Pahl, Tobias; Stelter, AndreThis dataset containes raw measurement data from a coherence scanning interferometer of the Linnik type. Two 0.95 NA objectives were used for this measurement. The wavelength used for all these measurements is 450 nm and the step size between every z-step is 20 nm. Information about the different apertures used for the measurements are described in detail in the corresponding publication. IMPORTANT: In case you use the data please cite our corresponding article mentioned below.Research Data Improving Energy Efficiency in Loop Pipelining by Rational-II Modulo SchedulingFiege, Nicolai; Sittel, Patrick; Zipf, PeterResearch Data Low-cost high-speed fiber-coupled interferometer for precise surface profilometry [Dataset](Universität Kassel) Hagemeier, Sebastian; Zou, Yijian; Pahl, Tobias; Rosenthal, Felix; Lehmann, PeterThis dataset contains raw data obtained by a fiber-coupled laser interferometer for surface profilometry (NA = 0.38, wavelength = 1550 nm) and a dataset measured by an atomic force microscope for reference. The data obtained by the laser interferometer includes surface profiles measured from a chirp standard manufactured by the PTB (Physikalisch-Technische Bundesanstalt, Germany), a sinusoidal standard 531 from Simetrics GmbH, and height values obtained from the identical position of an aluminum mirror. These results are shown in section 3 of the article mentioned below. The data are saved in an HFD5 file format and can be used by example codes programmed using the software Python and Matlab. Furthermore, the interference signal shown in Figure 3 is in a CSV file format in the dataset. In addition, a profile obtained from the fine chirp texture of the chirp standard measured by an atomic force microscope (Nanite, Nanosurf AG) with EBD-HAR probe IP from Nanotools GmbH in non-contact mode is contained in the dataset. These data are saved in a CSV file format and can be used by example a code programmed using the software Python. IMPORTANT: In case you use the data please cite our corresponding article mentioned below.Research Data Multiple Constant Multiplication using Boolean Satisfiability (SAT MCM)Fiege, Nicolai; Kumm, Martin; Zipf, PeterResearch Data S-MSRRS5000: A Simulated Dataset Highlighting the Challenges of Data Obtained From Multiple Spatially Resolved Reflection SpectroscopyMagnussen, Birk Martin; Jessulat, Maik; Stern, Claudius; Sick, BernhardResearch Data Synthetic Photovoltaic and Wind Power Forecasting DataSchreiber, Jens; Vogt, StephanResearch Data Three-Dimensional Transfer Functions of Interference Microscopes [Dataset]Lehmann, Peter; Hagemeier, Sebastian; Pahl, TobiasResearch Data Untersuchung der Transporteigenschaften von hergestellten MASH-Partikeln [Videos]Kaban, Burhan ÜzeyirDie Videos zeigen den Transport von MASH-Partikeln (Multifunctional Anisotropically Shaped Hybrid Particles) mithilfe von 3D-Helmholtz-Spulen. Die Partikel bestehen aus zwei Schichten, die jeweils aus einem Gast-Wirt-System aufgebaut sind. Dabei besteht die erste Schicht aus dem fluoreszierenden Phosphol als Gast-Partikel/Molekül und als Wirt-Polymer wird PMMA verwendet. Die zweite Schicht besteht aus AMONIL (Wirt-Polymer) und beinhaltet superparamagnetische Fe3O4-Partikel (Gast-Partikel). Durch Anlegen eines externen Magnetfelds werden die MASH-Partikel auf einem Exchange-Bias-Substrat in eine Vorzugsrichtung transportiert.