@inproceedings{61098,
author = {{Kaltenpoth, Sascha Benjamin and Skolik, Alexander Marcus and Müller, Oliver and Beverungen, Daniel}},
booktitle = {{Lecture Notes in Computer Science}},
isbn = {{9783032028662}},
issn = {{0302-9743}},
location = {{Sevilla}},
publisher = {{Springer Nature Switzerland}},
title = {{{A Step Towards Cognitive Automation: Integrating LLM Agents with Process Rules}}},
doi = {{10.1007/978-3-032-02867-9_19}},
year = {{2025}},
}
@misc{59564,
author = {{Peckhaus, Volker}},
booktitle = {{zbMATH Open, Zbl. 07925543}},
title = {{{Hermann, Michael, „Der Wandel von Statistik zu Maschinellem Lernen“, SieB. Siegener Beiträge zur Geschichte und Philosophie der Mathematik 17 (2023), 145–179. }}},
year = {{2025}},
}
@inproceedings{61109,
author = {{Pottebaum, Jens and Gräßler, Iris and Ebel, Marcel and Özcan, Deniz and Döhner, Niklas and Pratzler-Wanczura, Sylvia and Derin, Enes and Krüger, Oliver and Kruijff-Korbayova, Ivana and Stampa, Merlin}},
location = {{Koblenz, Deutschland}},
pages = {{81--94}},
publisher = {{LibreCat University}},
title = {{{EU-Projekt CREXDATA: Erkenntnisse und Handlungsempfehlungen zum Einsatz KI-generierter Lageinformationen für die Lagebewertung und Maßnahmenplanung in Extremwetterlagen}}},
doi = {{10.5281/ZENODO.16740824}},
year = {{2025}},
}
@article{61108,
abstract = {{Greybox fuzzing is used extensively in research and practice. There are umpteen publications that improve greybox fuzzing. However, to what extent do these improvements affect the internal components or internals of a given fuzzer is not yet understood as the improvements are mostly evaluated using code coverage and bug finding capability. Such an evaluation is insufficient to understand the effect of improvements on the fuzzer internals. Some of the literature visualizes the outcomes of fuzzing to enhance the understanding. However, they only focus on high-level information and no previous research on visualization has been dedicated to understanding fuzzing internals.
To close this gap, we propose the first step towards development of a fuzzing-specific visualization framework: a taxonomy of visualization analysis tasks that fuzzing experts desire to help them understand the fuzzing internals. Our approach involves conducting interviews with fuzzing experts and using qualitative data analysis to systematically extract the task taxonomy from the interview data. We also evaluate the support of existing fuzzing visualization tools through the lens of our taxonomy. In our study, we have conducted 33 interviews with fuzzing practitioners and extracted a taxonomy of 120 visualization analysis tasks. Our evaluation shows that the existing fuzzing visualization tools only provide aids to support 10 of them.}},
author = {{Kummita, Sriteja and Miao, Miao and Bodden, Eric and Wei, Shiyi}},
issn = {{1049-331X}},
journal = {{ACM Transactions on Software Engineering and Methodology}},
publisher = {{Association for Computing Machinery (ACM)}},
title = {{{Visualization Task Taxonomy to Understand the Fuzzing Internals}}},
doi = {{10.1145/3718346}},
year = {{2025}},
}
@article{55090,
author = {{Grewe, Felix}},
issn = {{2468-4414}},
journal = {{Feminist Encounters Special Issue on Peripheral Visions of Alternative Futures: Feminist Techno-imaginaries}},
number = {{2}},
publisher = {{lectito}},
title = {{{The Need for Diffraction in STEM -fields: An Ethical Feminist Consideration of the Concept of Genderscripting}}},
doi = {{10.20897/femenc/16786 }},
volume = {{9}},
year = {{2025}},
}
@inproceedings{61106,
author = {{Liszt-Rohlf, Verena and Büker, Ronja and Kamsker, Susanne}},
booktitle = {{21th Biennial EARLI Conference}},
location = {{Graz}},
title = {{{Entrepreneurship Education at All Levels of Education: A Systematic Literature Review}}},
year = {{2025}},
}
@inbook{59903,
abstract = {{This article explores the challenges and opportunities of documenting and cataloguing 19th-century music sources in Germany, using the 1832 Stuttgart production of Goethe’s Faust with music by Peter Joseph von Lindpaintner as a case study. The main focus lies on the potential interplay between (digital) critical music editions and RISM as complementary approaches to source documentation. While RISM has traditionally concentrated on pre-1800 sources, the vast and complex landscape of 19th-century music-theatrical materials—especially handwritten performance materials, but also printed sources—calls for new collaborative strategies. Drawing on the Faust edition within the OPEN Edirom project, which publishes data in open, structured formats (TEI and MEI) and makes them accessible via the RADAR4Culture repository and the Culture Knowledge Graph, the article argues for closer integration between editorial projects and RISM through stable identifiers and Linked Open Data principles. Editorial descriptions do not compete with RISM records but meaningfully extend them, and vice versa. The case study illustrates how editorial source descriptions and full-text editions could enhance the informational scope and augment the reach of RISM, and how RISM could serve as a basis for more granular, interconnected, and FAIR-compliant musicological research infrastructures. The article proposes RISM as a central access point for distributed research data and outlines the simple yet effective steps researchers can take to enhance discoverability and interoperability: namely, by using (or if necessary, creating) RISM IDs and by publishing data with persistent Digital Object Identifiers (DOIs).}},
author = {{Frömmel, Lena and Münzmay, Andreas}},
booktitle = {{Musikquellen des 19. Jahrhunderts in Deutschland. Herausforderungen und Chancen}},
editor = {{Schwindt, Nicole}},
pages = {{153--178}},
publisher = {{musiconn.publish}},
title = {{{Vernetzte Musikquellen des 19. Jahrhunderts. Überlegungen zum Zusammenspiel wissenschaftlicher Editionen mit RISM am Beispiel des Stuttgarter Faust 1832}}},
doi = {{10.25366/2025.45}},
year = {{2025}},
}
@article{61110,
abstract = {{By analyzing the physics of multi-photon absorption in superconducting nanowire single-photon detectors (SNSPDs), we identify physical components of jitter. From this, we formulate a quantitative physical model of the multi-photon detector response that combines the local detection mechanism and local fluctuations (hotspot formation and intrinsic jitter) with the thermoelectric dynamics of resistive domains. Our model provides an excellent description of the arrival-time histogram of a commercial SNSPD across several orders of magnitude, both in arrival-time probability and across mean photon number. This is achieved with just three fitting parameters: the scaling of the mean arrival time of voltage response pulses, as well as the Gaussian and exponential jitter components. Our findings have important implications for photon-number-resolving detector design, as well as applications requiring low jitter, such as light detection and ranging (LIDAR).}},
author = {{Sidorova, Mariia and Schapeler, Timon and Semenov, Alexej D. and Schlue, Fabian and Stefszky, Michael and Brecht, Benjamin and Silberhorn, Christine and Bartley, Tim}},
issn = {{2378-0967}},
journal = {{APL Photonics}},
keywords = {{Jitter, PNR, SNSPD}},
number = {{8}},
publisher = {{AIP Publishing}},
title = {{{Jitter in photon-number-resolved detection by superconducting nanowires}}},
doi = {{10.1063/5.0273752}},
volume = {{10}},
year = {{2025}},
}
@book{59079,
abstract = {{The present OPEN Edirom digital edition of Goethe’s Faust presents the literary and musical text of the work as it was possibly performed at its premiere (Friday, March 2, 1832) and consecutive performances under the direction and participation of Carl Seydelmann (directing the production and playing the role of Mephistopheles) and Peter Joseph von Lindpainter in the Stuttgart Hoftheater in 1832 (March 11, May 28, October 12) and 1833 (May 14, December 27), in accordance with the surviving sources, i.e., the original theatre material preserved in the Württemberg State Library in Stuttgart (D-Sl). This material constitutes a nearly complete autograph source package consisting of text adaptation (an autograph by Seydelmann incorporated into a copy of the print edition published by Cotta in Tübingen in 1830) and corresponding music (two volumes with autograph scores by Lindpaintner).}},
editor = {{Münzmay, Andreas and Frömmel, Lena and Bachmann, Tobias and Tumat, Antje}},
publisher = {{ZenMEM}},
title = {{{Peter Joseph von Lindpaintner, Ouverture, Entreacte, Chöre und Lieder zu Goethes Faust nach der szenischen Einrichtung von Carl Seydelmann (1832)}}},
year = {{2025}},
}
@misc{60920,
author = {{Schmidt, Rebecca}},
booktitle = {{Sozialwissenschaftliche Methodenberatung}},
title = {{{Mit KI (Elicit) den Forschungsstand beschreiben – ein kritischer Erfahrungsbericht}}},
year = {{2025}},
}
@inbook{59865,
author = {{Schmidt, Rebecca}},
booktitle = {{Transdisziplinäre Räume in den Kulturwissenschaften}},
editor = {{Kornbach, Alina and Lammer, Christina and Magdeburg, Lena}},
pages = {{339--363}},
publisher = {{Verlag Herder GmbH}},
title = {{{Participatory Research with Teachers - A Critical Analysis of Power Dynamics}}},
volume = {{3}},
year = {{2025}},
}
@inbook{60863,
author = {{Peckhaus, Volker}},
booktitle = {{Transdisziplinäre Räume in den Kulturwissenschaften}},
editor = {{Kornbach, Alina and Lammer, Christina and Magdeburg, Lena }},
pages = {{255--288}},
publisher = {{wbg Academics}},
title = {{{Aufruhr im Raum der Räume: Logik zwischen Philosophie und Mathematik}}},
volume = {{3}},
year = {{2025}},
}
@misc{58259,
author = {{Peckhaus, Volker}},
booktitle = {{zbMATH Open, Zbl. 07951350}},
title = {{{Eckes, Christophe, “Philosophical and Mathematical Duality in Albert Lautman’s Work”, in: R. Krömer und E. Haffner (Hgg.), Duality in 19th and 20th Century Mathematical Thinking, Cham: Birkhäuser 2024 (Science Networks. Historical Studies; 63), 435–469. }}},
year = {{2025}},
}
@misc{60872,
author = {{Peckhaus, Volker}},
booktitle = {{zbMATH Open, Zbl. 079505172}},
title = {{{Krömer, Ralf, “The Historical Development of Pontrjagin Duality”, in: R. Krömer und E. Haffner (Hgg.), Duality in 19th and 20th Century Mathematical Thinking, Cham: Birkhäuser 2024 (Science Networks. Historical Studies; 63), 291–353. }}},
year = {{2025}},
}
@misc{59563,
author = {{Peckhaus, Volker}},
booktitle = {{zbMATH Open, Zbl. 07951348}},
title = {{{Krömer, Ralf, “The Historical Development of Pontrjagin Duality”, in: R. Krömer und E. Haffner (Hgg.), Duality in 19th and 20th Century Mathematical Thinking, Cham: Birkhäuser 2024 (Science Networks. Historical Studies; 63), 291–353. }}},
year = {{2025}},
}
@misc{60879,
author = {{Peckhaus, Volker}},
booktitle = {{Mathematical Reviews, MR4769331}},
title = {{{Corry, Leo, “Von Neumann and Impossibility, from Gödel to EDVAC”, in: Mastering the History of Pure and Applied Mathematics – Essay in Honor of Jesper Lützen (De Gruyter Proc. Math.), De Gruyter. Berlin 2024, 75–99. }}},
year = {{2025}},
}
@misc{60878,
author = {{Peckhaus, Volker}},
booktitle = {{Mathematical Reviews, MR4740767}},
title = {{{Costantini, Filippo, “Definitions by Abstraction and Leibniz’s Notion of Quantity”, Theoria 90 (2024), 240–255.}}},
year = {{2025}},
}
@article{59740,
abstract = {{ABSTRACTIn this contribution, we propose an innovative method for determining optimal control sequences for nonlinear systems with partially unknown dynamics, which further expands our previous work. Within the paradigm of model‐based design, the practicality and safety of commissioning feedforward controls and feedback controllers have priority. Our approach leverages probabilistic Gaussian processes to adjust for model inaccuracies from measured system data. This differs from conventional approaches that involve complicated analytical modeling and may entail a substantial time investment to acquire expertise and may prove impractical. Consequently, we address the limitations inherent in traditional design methodologies. Our research focuses on the formulation and solution of the hybrid1 optimal control problem using probabilistic state predictions and multiple shooting. This ensures adaptability, data efficiency, and resilience against uncertainties in system dynamics. These attributes are empirically substantiated through experimental validation on a chaotic and highly sensitive dynamical system—a double pendulum on a cart. Our methodology unfolds as an iterative learning process, systematically exploring diverse controls, accumulating data within each iteration, and refining the control strategy until the desired task is accomplished. The adoption of the two‐degree‐of‐freedom control structure allows for the distinct consideration of the feedforward and the feedback control signal. For the latter, we employ a time‐variant, linear quadratic regulator (LQR) designed to stabilize the system around its target trajectory. Furthermore, we integrate a probabilistic long‐term prediction through the unscented transform, enabling systematic anticipation of safety‐critical violations. Detailed insights into relevant implementation aspects are provided. To ascertain the real‐world applicability, we present an exemplary application involving a double pendulum on a cart. The objective is to bring the pendulum arms from the lower stable to the upper unstable equilibrium by horizontally moving the cart and subsequently stabilize them. In this scenario, we assume that the centrifugal forces, crucial to the system dynamics, have not been accurately modeled and must be learned from data. Solving the control task took only 5 iterations and 1 h of computation time, which surpasses our previous work [2], where we used the purely data‐driven PILCO framework and required 27 iterations and 57 h of computation time. The time of interaction with the system decreased by and the computation time is lowered by . It demonstrates significant practical applicability for commissioning control systems.}},
author = {{Hesse, Michael and Schwarzer, Luis and Timmermann, Julia and Trächtler, Ansgar}},
issn = {{1617-7061}},
journal = {{PAMM}},
number = {{2}},
publisher = {{Wiley}},
title = {{{Robust and Efficient Hybrid Optimal Control via Gaussian Process Regression and Multiple Shooting With Experimental Validation on a Double Pendulum on a Cart}}},
doi = {{10.1002/pamm.70004}},
volume = {{25}},
year = {{2025}},
}
@article{61117,
author = {{Ratzke, Christian and Candan, Ayse Beyza}},
journal = {{Zeitschrift für christlich-jüdische Begegnung}},
number = {{1}},
title = {{{Reflexion religionsbezogener Einstellungen im Kontext interreligiöser Bildung anlässlich 80 Jahre nach Auschwitz}}},
volume = {{1}},
year = {{2025}},
}
@misc{61122,
author = {{Peckhaus, Volker}},
booktitle = {{zbMATH Open, Zbl. 07963874}},
title = {{{Bolzano, Bernard, Miscellanea mathematica 22, hg. v. Jan Berg, besorgt von Edgar Morscher und Otto Neumaier, Frommann-Holzboog: Stuttgart-Bad Cannstatt 2024 (Bernard Bolzano-Gesamtausgabe; II.B.12.2)}}},
year = {{2025}},
}