@unpublished{26645, author = {{Bobolz, Jan and Eidens, Fabian and Heitjohann, Raphael and Fell, Jeremy}}, publisher = {{IACR eprint}}, title = {{{Cryptimeleon: A Library for Fast Prototyping of Privacy-Preserving Cryptographic Schemes}}}, year = {{2021}}, } @article{28196, abstract = {{We show that narrow trenches in a high-contrast silicon-photonics slab can act as lossless power dividers for semi-guided waves. Reflectance and transmittance can be easily configured by selecting the trench width. At sufficiently high angles of incidence, the devices are lossless, apart from material attenuation and scattering due to surface roughness. We numerically simulate a series of devices within the full 0-to-1-range of splitting ratios, for semi-guided plane wave incidence as well as for excitation by focused Gaussian wave bundles. Straightforward cascading of the trenches leads to concepts for 1×M-power dividers and a polarization beam splitter.}}, author = {{Hammer, Manfred and Ebers, Lena and Förstner, Jens}}, issn = {{2578-7519}}, journal = {{OSA Continuum}}, keywords = {{tet_topic_waveguide}}, number = {{12}}, pages = {{3081}}, title = {{{Configurable lossless broadband beam splitters for semi-guided waves in integrated silicon photonics}}}, doi = {{10.1364/osac.437549}}, volume = {{4}}, year = {{2021}}, } @techreport{33854, abstract = {{Macrodiversity is a key technique to increase the capacity of mobile networks. It can be realized using coordinated multipoint (CoMP), simultaneously connecting users to multiple overlapping cells. Selecting which users to serve by how many and which cells is NP-hard but needs to happen continuously in real time as users move and channel state changes. Existing approaches often require strict assumptions about or perfect knowledge of the underlying radio system, its resource allocation scheme, or user movements, none of which is readily available in practice. Instead, we propose three novel self-learning and self-adapting approaches using model-free deep reinforcement learning (DRL): DeepCoMP, DD-CoMP, and D3-CoMP. DeepCoMP leverages central observations and control of all users to select cells almost optimally. DD-CoMP and D3-CoMP use multi-agent DRL, which allows distributed, robust, and highly scalable coordination. All three approaches learn from experience and self-adapt to varying scenarios, reaching 2x higher Quality of Experience than other approaches. They have very few built-in assumptions and do not need prior system knowledge, making them more robust to change and better applicable in practice than existing approaches.}}, author = {{Schneider, Stefan Balthasar and Karl, Holger and Khalili, Ramin and Hecker, Artur}}, keywords = {{mobility management, coordinated multipoint, CoMP, cell selection, resource management, reinforcement learning, multi agent, MARL, self-learning, self-adaptation, QoE}}, title = {{{DeepCoMP: Coordinated Multipoint Using Multi-Agent Deep Reinforcement Learning}}}, year = {{2021}}, } @inproceedings{29137, author = {{Hansmeier, Tim}}, booktitle = {{HEART '21: Proceedings of the 11th International Symposium on Highly Efficient Accelerators and Reconfigurable Technologies}}, location = {{Online}}, publisher = {{Association for Computing Machinery (ACM)}}, title = {{{Self-aware Operation of Heterogeneous Compute Nodes using the Learning Classifier System XCS}}}, doi = {{10.1145/3468044.3468055}}, year = {{2021}}, } @inbook{31452, author = {{Hagengruber, Ruth}}, booktitle = {{Musikwissenschaft der Vielfalt. Festschrift für Rebecca Grotjahn zum 60. Geburtstag}}, editor = {{Iffland, Joachim and Imm, Johannah and Jaeschke, Nina and Schauberger, Sarah}}, pages = {{147--159}}, publisher = {{Allitera Verlag}}, title = {{{“Mehr wert als tausend Männer” – Luise Adelgunde Victorie Kulmus Gottsched und die wahre Minerva}}}, year = {{2021}}, } @inbook{31448, author = {{Hagengruber, Ruth}}, booktitle = {{Philosophisches Jahrbuch 128. Jahrgang I/2021}}, pages = {{122--134}}, publisher = {{Karl Alber}}, title = {{{Out of the Box – into the Green and the Blue}}}, year = {{2021}}, } @inbook{31445, author = {{Hagengruber, Ruth}}, booktitle = {{Female Recruiting Report (3)}}, editor = {{Vogel, Melanie}}, publisher = {{Aviarium}}, title = {{{Philosophinnen an die Macht}}}, year = {{2021}}, } @article{31439, author = {{Hagengruber, Ruth}}, journal = {{Konsens}}, pages = {{33--34}}, title = {{{Ökonomie, Technik, Umwelt: Die Zukunft bestimmen, während wir die Vergangenheit überdenken: Defining the Future – Rethinking the Past}}}, year = {{2021}}, } @article{31442, author = {{Hagengruber, Ruth}}, journal = {{Konsens}}, pages = {{31}}, title = {{{Vizepräsidentin a.D. des DAB, Prof. Dr. Ulrike Detmers verleiht zum 20. Mal den von ihr ins Leben gerufenen Preis‚ Managerin des Jahres}}}, year = {{2021}}, } @article{31441, author = {{Hagengruber, Ruth}}, journal = {{Konsens}}, pages = {{32--33}}, title = {{{Der Elisabeth-von-Böhmen-Preis zur Erforschung der Geschichte der Philosophinnen wird zum dritten Mal verliehen}}}, year = {{2021}}, } @article{31446, author = {{Hagengruber, Ruth}}, journal = {{Konsens}}, pages = {{7--8}}, title = {{{Frauen aus aller Frauen Länder gestalten die Zukunft Deutschlands. Jahrestagung des DAB am 30. April 2021}}}, year = {{2021}}, } @book{21276, abstract = {{This collection of essays presents new work on women’s contribution to philosophy between the Renaissance and the mid-eighteenth century. They bring a new perspective to the history of philosophy, by highlighting women’s contributions to philosophy and testifying to the rich history of women’s thought in this period. By showing that women were active in many branches of philosophy (metaphysics, science, political philosophy cosmology, ontology, epistemology) the book testifies to the rich history of women’s thought across Europe in this period. The scope of the collection is international, both in terms of the philosophers represented and the contributors themselves from Britain and North America, but also from continental Europe and from as far afield as Australia and Brazil. The philosophers discussed here include both figures who have recently come to be better known (Elisabeth of Bohemia, Anne Conway, Mary Astell, Catharine Trotter Cockburn, Emilie du Châtelet), and less familiar figures (Moderata Fonte, Lucrezia Marinella Arcangela Tarabotti, Tullia d’Aragona, Madame Deshoulières, Madame de Sablé, Angélique de Saint-Jean Arnauld d’Andilly, Olivia Sabuco, Susanna Newcome). The chapters in this book were originally published as a special issue of the British Journal for the History of Philosophy.}}, editor = {{Hagengruber, Ruth and Hutton, Sarah}}, isbn = {{ISBN 9780367758646}}, keywords = {{History of Women Philosophers, Methodology, History of Philosophy, Women's Studies, Gender History}}, publisher = {{Routledge}}, title = {{{Women Philosophers from the Renaissance to the Enlightenment}}}, year = {{2021}}, } @inbook{21277, author = {{Hagengruber, Ruth}}, booktitle = {{Encyclopedia of Early Modern Philosophy and the Sciences}}, editor = {{Jalobeanu, Dana and Wolfe, Charles T.}}, publisher = {{Springer}}, title = {{{Du Châtelet, Émilie (1706–1749)}}}, doi = {{10.1007/978-3-319-20791-9_410-1}}, year = {{2021}}, } @article{34112, author = {{Hagengruber, Ruth Edith}}, journal = {{Konsens (2021), 9}}, title = {{{Der Deutsche Akademikerinnenbund ist Mitglied der Europäischen Bewegung Deutschland (EBD)}}}, year = {{2021}}, } @book{31434, editor = {{Hagengruber, Ruth}}, publisher = {{Zenodo}}, title = {{{Center for the History of Women Philosophers and Scientists Documentation 2016-2019 (Version 1)}}}, doi = {{http://doi.org/10.5281/zenodo.4982197}}, year = {{2021}}, } @book{34105, editor = {{Hagengruber, Ruth Edith and Neumann, Hanns-Peter and Muller, Jil and Wells, Aaron}}, title = {{{The Paris Ms Fr. 12265. A Critical and Historical Online Edition. https://historyofwomenphilosophers.org/dcpm/ (2021-2022)}}}, year = {{2021}}, } @inproceedings{27128, author = {{Gräßler, Iris and Hillebrand, Stefan and Roesmann, Daniel}}, isbn = {{978-9-492-85916-7}}, location = {{Valletta, Malta }}, pages = {{29--36}}, title = {{{Design Review of Assembly Workstations using Virtual Prototypes}}}, year = {{2021}}, } @inbook{33217, author = {{Ulrich, Tanja}}, booktitle = {{Z’sammengredt. Gelingende Teilhabe durch sprachheilpädagogische Unterstützung- ein Austausch über relevante und aktuelle Themen in den unterschiedlichen pädagogischen Umgebungen}}, editor = {{A, Paier}}, pages = {{179--190}}, publisher = {{Österreichische Gesellschaft für Sprachheilpädagogik}}, title = {{{Wie lassen sich Strategien in die unterrichtliche Wortschatzarbeit integrieren? Entwicklung des Förderkonzepts „Wortschatzsammler im Unterricht“}}}, year = {{2021}}, } @article{33227, author = {{Lenzen, M and Riehemann, S and Ulrich, Tanja}}, journal = {{Forschung Sprache 1}}, pages = {{3--20}}, title = {{{Bedarfsanalyse zur Genusförderung von Schülern - eine Fragebogenerhebung mit Lehrkräften im Förderschwerpunkt Sprache}}}, year = {{2021}}, } @inproceedings{32132, abstract = {{Die Werkzeugdemonstration des QEMU Timing Analyzers (QTA) stellt eine Erweiterung des quelloffenen CPU Emulators QEMU zur Simulation von Softwareprogrammen und deren Worst-Case Zeitverhaltens vor, das durch eine statische Zeitanalyse vorher aus dem Softwareprogramm extrahiert wurde. Der Ablauf der Analyse gliedert sich in mehrere Schritte: Zunächst wird für das zu simulierende Binärprogramm eine WCET-Analyse mit aiT durchgeführt. Im Preprocessing des aiT-Reports wird daraufhin ein WCET-annotierter Kontrollflussgraph erzeugt. Dabei entsprechen die Knoten im Kontrollflussgraph den aiT-Blöcken und die Kanten dem jeweiligen Worst-Case-Zeitverbrauch, um das Programm im aktuellen Ausführungskontext vom Quell- bis zum Zielblock laufen zu lassen. Nach dem Preprocessing werden Binärprogramm und der zuvor erzeugte, zeitannotierte Kontrollflussgraph von QEMU geladen und gemeinsam simuliert. Die Implementierung des QTA basiert auf der Standard TGI Plugin API (Tiny Code Generator Plugin API), die seit Ende 2019 mit QEMU V4.2 verfügbar ist. Dieses API erlaubt die Entwicklung von versionsunabhängigen QEMU-Erweiterungen. Die QEMU-QTA-Erweiterung wird zum Zeitpunkt der Werkzeugdemonstration inklusive des ait2qta-Preprozessors unter github.com im Quellcode frei verfügbar sein. Die Demonstration geht von einer existierenden aiT-Analyse eines für TriCore© kompilierten binären Softwareprograms aus, erläutert das Kontrollflusszwischenformat und zeigt die zeitannotierte Simulation der Software.}}, author = {{Adelt, Peer and Koppelmann, Bastian and Müller, Wolfgang and Scheytt, Christoph}}, booktitle = {{MBMV 2021 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop}}, keywords = {{QEMU, aiT, Zeitannotation, WCET}}, publisher = {{VDE}}, title = {{{QEMU zur Simulation von Worst-Case-Ausführungszeiten}}}, year = {{2021}}, }