@misc{48625,
abstract = {{Die Erfindung betrifft einen elektrooptischen Balun, wobei der elektrooptische Balun einen Eingang für ein optisches Eingangssignal (Ein(t)) aufweist, wobei der elektrooptische Balun weiterhin ein 1x2 Multimodeninterferometer (1x2 MMI) und einen Phasenschieber (Δϕ) aufweist, wobei das 1x2 Multimodeninterferometer (1x2 MMI) mit dem Eingangssignal im Betrieb versorgbar ist, wobei der elektrooptische Balun weiterhin ein 2x4 Multimodeninterferometer (2x4 MMI) aufweist, wobei das 2x4 Multimodeninterferometer (2x4 MMI) mit den Ausgangsarmen des 1x2 Multimodeninterferometer (1x2 MMI) verbunden ist, wobei der Phasenschieber (Δϕ) in einem Ausgangsarm des 1x2 Multimodeninterferometer (1x2 MMI) angeordnet ist, wobei im Betrieb an zwei Ausgängen (Eout,1 (t), Eout,4(t)) des 2x4 Multimodeninterferometers (2x4 MMI) ein quasi differentielles optisches Signal anliegt, das mittels einer jeweiligen Photodiode (PD1, PD2) und einem differentiellen Schaltkreis in ein DC-freies elektrisches Signal (Vout) überführt werden kann.
Weiterhin betrifft die Erfindung ein System zur Generierung eines pseudeodifferentiellen Signals, aufweisend einen elektrooptischen Balun sowie einen optischen Strahlteiler (OS) sowie einen dual output carrier injection Mach Zehnder Modulator (MZM), wobei der optische Strahlteiler (OS) ein Eingangssignal (IIN) in einen ersten Teil (n) und einen zweiten Teil (1-n) aufteilt, wobei der zweite Teil (1-n) als Eingangssignal (Ein(t)) im Betrieb auf den Eingang des elektrooptischen Baluns geführt wird, wobei der erste Teil (n) im Betrieb als Eingangssignal dem dual output carrier injection Mach Zehnder Modulator (MZM) zugeführt wird, wobei das quasi differentielle elektrische Signal (I1, I2) der Photodioden (PD1, PD2) im Betrieb zur Ansteuerung des dual output carrier injection Mach Zehnder Modulator (MZM) in push pull Konfiguration verwendet wird.}},
author = {{Kruse, Stephan and Scheytt, J. Christoph}},
title = {{{Elektrooptischer Balun und System zur Generierung eines pseudodifferentiellen Signals aufweisend einen solchen elektrooptischen Balun}}},
year = {{2023}},
}
@misc{48623,
abstract = {{Die Erfindung betrifft eine einstellbare Signalquelle mit kleinem Phasenrauschen, aufweisend
• einen optischen Mikrowellenphasendetektor (BOMPD) aufweisend
• einen Intensitätsmodulator (BIM), mit einem optischen Signaleingang, einem Modulationseingang (I), und einem ersten Ausgang (O1) und einen zweiten Ausgang (O2),
• eine erste Photodiode (PD1), die im Betrieb mit Licht des ersten Ausgangs (O1) bestrahlt werden kann,
• eine zweite Photodiode (PD2), die im Betrieb mit Licht des zweiten Ausgangs (O2) bestahlt werden kann,
• wobei die erste Photodiode (PD1) und die zweite Photodiode (PD2), im Betrieb vorgespannt in Reihe geschaltet sind,
• wobei zwischen der ersten Photodiode (PD1) und der zweiten Photodiode (PD2) ein Abgriff für eine Abgriffs-Signal angeordnet ist,
• weiterhin aufweisend eine steuerbare Gleichstromquelle,
• wobei am Abgriff im Betrieb mittels der ersten Gleichstromquelle (N4) ein Offsetstrom einstellbar ist, womit die Symmetrie des optischen Mikrowellenphasendetektor im Betrieb durch einen Offsetstrom aufgehoben wird,
• wobei der Abgriff mit einem eventuellen Offsetstrom an ein Tiefpassfilter geführt wird,
• wobei das tiefpassgefilterte Abgriffs-Signal einem einstellbaren Oszillator (OSZ) zur Verfügung gestellt wird.
}},
author = {{Bahmanian, Meysam and Scheytt, J. Christoph}},
title = {{{Einstellbare Signalquelle mit kleinem Phasenrauschen}}},
year = {{2023}},
}
@inproceedings{57058,
author = {{Lazarov, Stefan Teodorov and Schaffer, Michael and Ronoh, Erick Kiprop}},
location = {{Paderborn}},
title = {{{Approaches of Assessing Understanding Using Video-Recall Data}}},
year = {{2023}},
}
@inproceedings{46490,
author = {{Gräßler, Iris and Tusek, Alena Marie and Özcan, Deniz}},
booktitle = {{Automation 2023}},
isbn = {{9783181024195}},
location = {{Baden-Baden}},
pages = {{863 -- 874}},
publisher = {{VDI Verlag}},
title = {{{Entwicklung zukunftsfähiger Geschäftsmodelle in der Automatisierungstechnik anhand von Megatrends}}},
doi = {{10.51202/9783181024195-863}},
volume = {{2419}},
year = {{2023}},
}
@inbook{46572,
abstract = {{Indonesian is classified as underrepresented in the Natural Language Processing (NLP) field, despite being the tenth most spoken language in the world with 198 million speakers. The paucity of datasets is recognized as the main reason for the slow advancements in NLP research for underrepresented languages. Significant attempts were made in 2020 to address this drawback for Indonesian. The Indonesian Natural Language Understanding (IndoNLU) benchmark was introduced alongside IndoBERT pre-trained language model. The second benchmark, Indonesian Language Evaluation Montage (IndoLEM), was presented in the same year. These benchmarks support several tasks, including Named Entity Recognition (NER). However, all NER datasets are in the public domain and do not contain domain-specific datasets. To alleviate this drawback, we introduce IndQNER, a manually annotated NER benchmark dataset in the religious domain that adheres to a meticulously designed annotation guideline. Since Indonesia has the world’s largest Muslim population, we build the dataset from the Indonesian translation of the Quran. The dataset includes 2475 named entities representing 18 different classes. To assess the annotation quality of IndQNER, we perform experiments with BiLSTM and CRF-based NER, as well as IndoBERT fine-tuning. The results reveal that the first model outperforms the second model achieving 0.98 F1 points. This outcome indicates that IndQNER may be an acceptable evaluation metric for Indonesian NER tasks in the aforementioned domain, widening the research’s domain range.}},
author = {{Gusmita, Ria Hari and Firmansyah, Asep Fajar and Moussallem, Diego and Ngonga Ngomo, Axel-Cyrille}},
booktitle = {{Natural Language Processing and Information Systems}},
isbn = {{9783031353192}},
issn = {{0302-9743}},
keywords = {{NER benchmark dataset, Indonesian, specific domain}},
location = {{Derby, UK}},
publisher = {{Springer Nature Switzerland}},
title = {{{IndQNER: Named Entity Recognition Benchmark Dataset from the Indonesian Translation of the Quran}}},
doi = {{10.1007/978-3-031-35320-8_12}},
year = {{2023}},
}
@inproceedings{57274,
author = {{Srivastava, Nikit and Perevalov, Aleksandr and Kuchelev, Denis and Moussallem, Diego and Ngonga Ngomo, Axel-Cyrille and Both, Andreas}},
booktitle = {{Proceedings of the 12th Knowledge Capture Conference 2023}},
publisher = {{ACM}},
title = {{{Lingua Franca – Entity-Aware Machine Translation Approach for Question Answering over Knowledge Graphs}}},
doi = {{10.1145/3587259.3627567}},
year = {{2023}},
}
@book{56748,
editor = {{Bergmann, Claudia and Rajak, Tessa and Kranemann, Benedikt and Ullrich, Rebecca }},
publisher = {{Brill}},
title = {{{The Power of Psalms in Post-Biblical Judaism. Liturgy, Ritual and Community}}},
volume = {{118}},
year = {{2023}},
}
@inbook{57345,
author = {{Marchetti, Andreas and Schreckenberg, Stefan}},
booktitle = {{Europa im Fremdsprachenunterricht Französisch, Italienisch & Spanisch. Sprachenpolitik, Kulturpluralität und Mehrsprachigkeit}},
editor = {{del Valle, Victoria and Heyder, Karoline and Schlaak, Claudia}},
isbn = {{978-3-86821-996-8}},
pages = {{9--25}},
publisher = {{Wissenschaftlicher Verlag Trier}},
title = {{{Europa erfahren, begreifen, vermitteln. Ansätze zur Entwicklung einer synkritischen Europadidaktik}}},
volume = {{22}},
year = {{2023}},
}
@article{53628,
author = {{Weidner, Verena and Hermann, Katharina and Godau, Marc}},
journal = {{BMU Magazin}},
pages = {{8--13}},
title = {{{Write Your Song. Songwriting im Musikunterricht – ein Kartenspiel als Planungstool}}},
volume = {{16}},
year = {{2023}},
}
@book{57484,
author = {{Karaca, Resul}},
isbn = {{978-2140321146}},
publisher = {{L'Harmattan}},
title = {{{Constructions de l'identité nationale - Tryptique identite-mémoire-nation. Le "grand débat sur l'identité nationale"}}},
year = {{2023}},
}
@misc{56124,
author = {{Priesching, Nicole}},
booktitle = {{Theologische Revue}},
number = {{10}},
title = {{{Dysmas de Lassus: Verheissung und Verrat. Geistlicher Missbrauch in Orden und Gemeinschaften der katholischen Kirche. Münster 2022}}},
doi = {{10.17879/THRV-2023-5137}},
volume = {{119}},
year = {{2023}},
}
@inproceedings{47033,
author = {{Güldenpenning, Iris and Kunde, W. and Weigelt, Matthias}},
booktitle = {{Human Performance – Assessment, Intervention & Analysen. Abstractband der 55. Jahrestagung der Arbeitsgemeinschaft für Sportpsychologie (asp)}},
editor = {{Schott, N. and Klotzbier, T. and Korbus, H. and El-Rajab, I. and Holfelder, B. and Gomolinsky, U. and Park, S.-Y.}},
pages = {{116--117}},
publisher = {{Universität Stuttgart}},
title = {{{Der Einfluss von kognitiver Belastung auf den Blicktäuschungseffekt im Basketball}}},
year = {{2023}},
}
@inproceedings{46575,
author = {{Baci, Alkid and Heindorf, Stefan}},
booktitle = {{CIKM}},
location = {{Birmingham, UK}},
pages = {{3733–3737}},
title = {{{Accelerating Concept Learning via Sampling}}},
doi = {{10.1145/3583780.3615158}},
year = {{2023}},
}
@inproceedings{49890,
abstract = {{In this paper, the influence of the environment on an inductive location system is analyzed. In the inductive location method, high frequency magnetic fields generated by planar coils lead to induction in other coils, which is used for localization analysis. Magnetic fields are not affected by changes in the dielectric properties of the environment, which is an advantage over other localization methods. However, electrical material parameters can still affect the localization results by indirect effects. For this reason, in this publication the influence will be investigated using real material parameters and their effects on the localization will be considered, so that the robustness and the limits of the inductive localization can be evaluated.}},
author = {{Lange, Sven and Hilleringmann, Ulrich and Hedayat, Christian and Kuhn, Harald and Förstner, Jens}},
booktitle = {{2023 IEEE Conference on Antenna Measurements and Applications (CAMA)}},
keywords = {{Planar coils, inductive locating, magnetic fields, environmental influences, eddy currents, tet_topic_hf, tet_enas}},
location = {{Genoa, Italy }},
publisher = {{IEEE}},
title = {{{Characterization of Various Environmental Influences on the Inductive Localization}}},
doi = {{10.1109/cama57522.2023.10352780}},
year = {{2023}},
}
@article{47431,
author = {{Burmeister, Sascha Christian and Guericke, Daniela and Schryen, Guido}},
journal = {{Flexible Services and Manufacturing Journal}},
pages = {{1530 -- 1570}},
publisher = {{Springer}},
title = {{{A Memetic NSGA-II for the Multi-Objective Flexible Job Shop Scheduling Problem with Real-time Energy Tariffs}}},
doi = {{10.1007/s10696-023-09517-7}},
volume = {{36}},
year = {{2023}},
}
@inproceedings{33722,
author = {{Müller, Michelle and Neumann, Jürgen}},
booktitle = {{Proceedings of the 56th Hawaii International Conference on System Sciences (HICSS)}},
location = {{Maui, Hawaii, USA}},
title = {{{Bring me my Meal on your Wheel - An Empirical Analysis of the Impact of Food Delivery Platforms on Local Restaurant Employment}}},
year = {{2023}},
}
@article{57558,
abstract = {{AbstractMathematical modelling emphasizes the connection between mathematics and reality — still, tasks are often exclusively introduced inside the classroom. The paper examines the potential of different task settings for mathematical modelling with real objects: outdoors at the real object itself, with photographs and with a 3D model representation. It is the aim of the study to analyze how far the mathematical modelling steps of students solving the tasks differ in comparison to the settings and representations. In a qualitative study, 19 lower secondary school students worked on tasks of all three settings in a Latin square design. Their working processes in the settings are compared with a special focus on the modelling steps Simplifying and Structuring, as well as Mathematizing. The analysis by means of activity diagrams and a qualitative content analysis shows that both steps are particularly relevant when students work with real objects — independent from the three settings. Still, differences in the actual activities could be observed in the students’ discussion on the appropriateness of a model and in dealing with inaccuracies at the real object. In addition, the process of data collection shows different procedures depending on the setting which presents each of them as an enrichment for the acquisition of modelling skills.}},
author = {{Jablonski, Simone}},
issn = {{0013-1954}},
journal = {{Educational Studies in Mathematics}},
number = {{2}},
pages = {{307--330}},
publisher = {{Springer Science and Business Media LLC}},
title = {{{Is it all about the setting? — A comparison of mathematical modelling with real objects and their representation}}},
doi = {{10.1007/s10649-023-10215-2}},
volume = {{113}},
year = {{2023}},
}
@article{51293,
author = {{Drepper, Laura}},
journal = {{Die Grundschulzeitschrift }},
title = {{{Erzählen zu fantastischen Bildern. Kinder sprechen über Formen und Funktionen grammatischer Mittel in Erzählung}}},
volume = {{341}},
year = {{2023}},
}
@misc{57589,
author = {{Topalović, Elvira and Härtel, Kira}},
booktitle = {{Die Grundschulzeitschrift}},
number = {{341}},
pages = {{28–31}},
title = {{{„Es gibt ja Zeichen für Wörter...". Grammatisches und Zeichenhaftes in Sprach(en)repertoires entdecken}}},
year = {{2023}},
}
@techreport{48979,
author = {{Maiterth, Ralf and Sureth-Sloane, Caren and Dyck, Daniel and Heinemann-Heile, Vanessa}},
publisher = {{TRR 266 Accounting for Transparency}},
title = {{{GBP-Monitor: Betriebswirtschaftliche Einschätzungen und Erwartungen von Unternehmen in Deutschland. Unternehmenstrends im November 2023}}},
doi = {{10.52569/DURP4114}},
year = {{2023}},
}