@article{61911,
  author       = {{Diekmann, Isabell and Kiefer, Michael}},
  issn         = {{2626-3653}},
  journal      = {{Perspektiven. Soziale Arbeit in der Migrationsgesellschaft und muslimische Wohlfahrtspflege}},
  number       = {{1}},
  pages        = {{12–33}},
  publisher    = {{Institut für Islamische Theologie (IIT), Universität Osnabrück}},
  title        = {{{Neue Wege der Professionalisierung – Der neue Masterstudiengang Soziale Arbeit in der Migrationsgesellschaft mit dem Schwerpunkt muslimische Wohlfahrtspflege}}},
  doi          = {{10.48439/perspektiven.1-2022.167.v0 }},
  volume       = {{2022}},
  year         = {{2022}},
}

@inbook{51809,
  author       = {{Schmitt, Martin}},
  booktitle    = {{Prophets of Computing: Visions of Society Transformed by Computing}},
  editor       = {{van Lente, Dick}},
  keywords     = {{Sparkassen, Computer, 1960er, Kreditwirtschaft, Digitalisierung, Deutschland {\textless}DDR{\textgreater}, Deutschland {\textless}Bundesrepublik{\textgreater}}},
  pages        = {{87–115}},
  publisher    = {{ACM}},
  title        = {{{Banking the Future of Banking: Savings banks and the Digital Age in East and West Germany}}},
  year         = {{2022}},
}

@article{48386,
  author       = {{Behler, Felix}},
  issn         = {{2751-9732}},
  journal      = {{Journal for the Study of British Cultures (JSBC)}},
  number       = {{2}},
  pages        = {{243--260}},
  publisher    = {{Universitätsverlag Winter Heidelberg}},
  title        = {{{Towards an Edwardian Renaissance? The Super-Rich and the Shifting Social Geography of the British Countryside Today}}},
  volume       = {{29}},
  year         = {{2022}},
}

@article{34230,
  abstract     = {{We present the design and experimental characterization of a silicon nitride pulse interleaver based on coupled resonator optical waveguide filters. In order to achieve a targeted free spectral range of 1.44 THz, which is large given the reduced optical confinement of the silicon nitride platform, individual ring resonators are designed with tapered waveguides. Its application to time-interleaved photonically-assisted ADCs is analyzed by combining experimental characterization of the photonic integrated circuit with a comprehensive model of the entire ADC. The impact of fundamental signal distortion and noise sources affecting the converter is investigated and suitable equalization techniques at the digital signal processing level are evaluated. The novel application of a simple but powerful equalization filter in the DSP domain allows for a significant improvement of the digitized signal SNR. An ENOB of 5 over a 75 GHz bandwidth (150 GS/s) and an ENOB of 4.3 over a 100 GHz bandwidth (200 GS/s) are expected to be achievable with compact and off-the-shelf single-section semiconductor mode locked lasers, that can be further improved with lower noise light sources.}},
  author       = {{Zazzi, Andrea and Müller, Juliana and Ghannam, Ibrahim and Battermann, Moritz and Rajeswari, Gayatri Vasudevan and Weizel, Maxim and Scheytt, J. Christoph and Witzens, Jeremy}},
  issn         = {{1094-4087}},
  journal      = {{Optics Express}},
  number       = {{3}},
  publisher    = {{Optica Publishing Group}},
  title        = {{{Wideband SiN pulse interleaver for optically-enabled analog-to-digital conversion: a device-to-system analysis with cyclic equalization}}},
  doi          = {{10.1364/oe.441406}},
  volume       = {{30}},
  year         = {{2022}},
}

@article{34239,
  author       = {{Bahmanian, Meysam and Scheytt, J. Christoph}},
  issn         = {{0018-9480}},
  journal      = {{IEEE Transactions on Microwave Theory and Techniques}},
  number       = {{10}},
  pages        = {{4422--4435}},
  publisher    = {{Institute of Electrical and Electronics Engineers (IEEE)}},
  title        = {{{Noise Processes and Nonlinear Mechanisms in Optoelectronic Phase-Locked Loop Using a Balanced Optical Microwave Phase Detector}}},
  doi          = {{10.1109/tmtt.2022.3197621}},
  volume       = {{70}},
  year         = {{2022}},
}

@inproceedings{62072,
  abstract     = {{The vision of Automated Machine Learning (AutoML) is to produce high performing ML pipelines that require very little human involvement or domain expertise to use. Competitions and benchmarks have been critical tools for accelerating progress in AutoML. However, much of the prior work on AutoML competitions has focused on well-studied domains in machine learning such as vision and language—these are domains which have benefited from several years of ML pipeline design by domain experts, which brings the usage of AutoML into question in the first place. Recently, AutoML for diverse tasks has emerged as an important research area that aims to bring AutoML to the domains where it can have the most impact: the long tail of ML tasks <em>beyond vision and language</em>. We present a retrospective report of the AutoML Decathlon—an AutoML for diverse tasks competition hosted at NeurIPS 2022. The AutoML Decathlon presented participants with a set of 10 machine learning tasks that are diverse along several axes: domain, input dimension, output dimension, output type, objective function, and scale. Participants were tasked with developing AutoML methods that performed well on a <em>separate</em> set of 10 hidden diverse test tasks within a certain time budget, so as to discourage overfitting to the initial set of tasks and to encourage efficiency. In this report, we outline the details of the competition, discuss the top-5 submissions, analyze the results, and compare top submissions to additional state-of-the-art baselines designed specifically for diverse tasks. We conclude that the combination of existing efficient AutoML techniques with modern advancements in ML such as large-scale transfer learning, modern architectures, and differentiable Neural Architecture Search (NAS) is a promising direction for AutoML for diverse tasks.}},
  author       = {{Roberts, Nicholas and Guo, Samuel and Xu, Cong and Talwalkar, Ameet and Lander, David and Tao, Lvfang and Cai, Linhang and Niu, Shuaicheng and Heng, Jianyu and Qin, Hongyang and Deng, Minwen and Hog, Johannes and Pfefferle, Alexander and Ammanaghatta Shivakumar, Sushil and Krishnakumar, Arjun and Wang, Yubo and Sukthanker, Rhea and Hutter, Frank and Hasanaj, Euxhen and Le, Tien-Dung and Khodak, Mikhail and Nevmyvaka, Yuriy and Rasul, Kashif and Sala, Frederic and Schneider, Anderson and Shen, Junhong and Sparks, Evan}},
  booktitle    = {{Proceedings of the NeurIPS 2022 Competitions Track}},
  editor       = {{Ciccone, Marco and Stolovitzky, Gustavo and Albrecht, Jacob}},
  pages        = {{151–170}},
  publisher    = {{PMLR}},
  title        = {{{AutoML Decathlon: Diverse Tasks, Modern Methods, and Efficiency at Scale}}},
  volume       = {{220}},
  year         = {{2022}},
}

@article{37942,
  author       = {{Andexer, Jennifer N. and Beifuss, Uwe and Brasholz, Malte and Breinbauer, Rolf and Breugst, Martin and Dumele, Oliver and Ernst, Martin and Ganardi, Ruth and Giese, Michael and Gulder, Tobias A. M. and Hüttel, Wolfgang and Kath‐Schorr, Stephanie and Körber, Karsten and Kordes, Markus and Lindel, Thomas and Mück‐Lichtenfeld, Christian and Niemeyer, Jochen and Pfau, Roland and Pfrengle, Fabian and Pietruszka, Jörg and Röckl, Johannes L. and Schaschke, Norbert and Sebode, Hanna and Senge, Mathias O. and Straub, Bernd F. and Teichert, Johannes and Waldvogel, Siegfried R. and Werner, Thomas and Winter, Christian}},
  issn         = {{1439-9598}},
  journal      = {{Nachrichten aus der Chemie}},
  keywords     = {{General Chemical Engineering, General Chemistry}},
  number       = {{3}},
  pages        = {{42--69}},
  publisher    = {{Wiley}},
  title        = {{{Trendbericht Organische Chemie 2022}}},
  doi          = {{10.1002/nadc.20224122453}},
  volume       = {{70}},
  year         = {{2022}},
}

@article{37938,
  author       = {{Terazzi, Constanza and Laatz, Karoline and von Langermann, Jan and Werner, Thomas}},
  issn         = {{2168-0485}},
  journal      = {{ACS Sustainable Chemistry and Engineering}},
  keywords     = {{T1, T3, CSSD}},
  number       = {{40}},
  pages        = {{13335--13342}},
  publisher    = {{American Chemical Society (ACS)}},
  title        = {{{Synthesis of Cyclic Carbonates Catalyzed by CaI<sub>2</sub>–Et<sub>3</sub>N and Studies on Their Biocatalytic Kinetic Resolution}}},
  doi          = {{10.1021/acssuschemeng.2c03210}},
  volume       = {{10}},
  year         = {{2022}},
}

@article{37940,
  author       = {{Ren, Changyue and Spannenberg, Anke and Werner, Thomas}},
  issn         = {{2193-5807}},
  journal      = {{Asian Journal of Organic Chemistry}},
  keywords     = {{T1, T2, CSSD}},
  number       = {{9}},
  publisher    = {{Wiley}},
  title        = {{{Synthesis of Bifunctional Phosphonium Salts Bearing Perfluorinated Side Chains and Their Application in the Synthesis of Cyclic Carbonates from Epoxides and CO            <sub>2</sub>}}},
  doi          = {{10.1002/ajoc.202200156}},
  volume       = {{11}},
  year         = {{2022}},
}

@article{50025,
  author       = {{Feng, Yuanhua and Gries, Thomas and Letmathe, Sebastian and Schulz, Dominik}},
  issn         = {{2073-4859}},
  journal      = {{The R Journal}},
  keywords     = {{Statistics, Probability and Uncertainty, Numerical Analysis, Statistics and Probability}},
  number       = {{1}},
  pages        = {{182--195}},
  publisher    = {{The R Foundation}},
  title        = {{{The smoots Package in R for Semiparametric Modeling of Trend Stationary Time Series}}},
  doi          = {{10.32614/rj-2022-017}},
  volume       = {{14}},
  year         = {{2022}},
}

@misc{62144,
  author       = {{Weber, Arne and Werner, Thomas and Grandane, Aiga and Stefanow, V. and Lenz, O.}},
  title        = {{{Verfahren zur Herstellung von Cedrendiol}}},
  year         = {{2022}},
}

@misc{62224,
  author       = {{Heinrichs, Ulrike}},
  booktitle    = {{Allgemeines Künstlerlexikon }},
  editor       = {{Beyer, Andreas and Savoy, Bénédicte and Tegethoff, Wolf}},
  pages        = {{228--230}},
  publisher    = {{K. G. Saur}},
  title        = {{{Wiik, Maria (Maria Catharina)}}},
  volume       = {{116}},
  year         = {{2022}},
}

@misc{62220,
  author       = {{Heinrichs, Ulrike}},
  booktitle    = {{Allgemeines Künstlerlexikon }},
  editor       = {{Beyer, Andreas and Savoy, Bénédicte and Tegethoff, Wolf}},
  pages        = {{251--252}},
  publisher    = {{K. G. Saur}},
  title        = {{{Weckström, Marjatta}}},
  volume       = {{115}},
  year         = {{2022}},
}

@misc{62223,
  author       = {{Heinrichs, Ulrike}},
  booktitle    = {{Allgemeines Künstlerlexikon }},
  editor       = {{Beyer, Andreas and Savoy, Bénédicte and Tegethoff, Wolf}},
  pages        = {{30}},
  publisher    = {{K. G. Saur}},
  title        = {{{Westermarck, Helena}}},
  volume       = {{116}},
  year         = {{2022}},
}

@misc{62221,
  author       = {{Heinrichs, Ulrike}},
  booktitle    = {{Allgemeines Künstlerlexikon }},
  editor       = {{Beyer, Andreas and Savoy, Bénédicte and Tegethoff, Wolf}},
  pages        = {{292}},
  publisher    = {{K. G. Saur}},
  title        = {{{Wehmas, Einari}}},
  volume       = {{115}},
  year         = {{2022}},
}

@misc{62225,
  author       = {{Heinrichs, Ulrike}},
  booktitle    = {{Allgemeines Künstlerlexikon }},
  editor       = {{Beyer, Andreas and Savoy, Bénédicte and Tegethoff, Wolf}},
  publisher    = {{K. G. Saur}},
  title        = {{{Wikström, Emil}}},
  year         = {{2022}},
}

@misc{62222,
  author       = {{Heinrichs, Ulrike}},
  booktitle    = {{Allgemeines Künstlerlexikon }},
  pages        = {{460--461}},
  publisher    = {{K. G. Saur}},
  title        = {{{Wendelin, Martta}}},
  volume       = {{115}},
  year         = {{2022}},
}

@article{36988,
  author       = {{Thomas, Sven}},
  journal      = {{Technology and Language }},
  number       = {{4}},
  title        = {{{Language in the Age of Mechanical Reproduction}}},
  doi          = {{10.48417/technolang.2022.04.07}},
  volume       = {{3}},
  year         = {{2022}},
}

@misc{62226,
  author       = {{Heinrichs, Ulrike}},
  booktitle    = {{Allgemeines Künstlerlexikon }},
  editor       = {{Beyer, Andreas and Savoy, Bénédicte and Tegethoff, Wolf}},
  pages        = {{262--263}},
  publisher    = {{K. G. Saur}},
  title        = {{{Wright, Wilhelm von}}},
  volume       = {{117}},
  year         = {{2022}},
}

@book{62032,
  editor       = {{Fahimi, Miriam and Flatschart, Elmar and Schaffar, Wolfram}},
  isbn         = {{9783030939991}},
  publisher    = {{Springer International Publishing}},
  title        = {{{State and Statehood in the Global South}}},
  doi          = {{10.1007/978-3-030-94000-3}},
  year         = {{2022}},
}