@inproceedings{23521, abstract = {{Faults in the realization and usage of cyber-physical systems can cause significant security issues. Attackers might exploit vulnerabilities in the physical configurations, control systems, or accessibility through internet connections. For CPS, two challenges are combined: Firstly, discipline-specific security measures should be applied. Secondly, new measures have to be created to cover interdisciplinary impacts. For instance, faulty software configurations in cyber-physical production systems (CPPS) might allow attackers to manipulate the correct control of production processes impacting the quality of end products. From liability and publicity perspective, a worst-case scenario is that such a corrupted product is delivered to a customer. In this context, security-oriented fault-tolerance in Systems Engineering (SE) requires measures to evaluate interdisciplinary system designs with regard to potential scenarios of attacks. The paper at hand contributes a conceptual threat modelling approach to cover potential attack scenarios. The approach can be used to derive both system-level and discipline-specific security solutions. As an application case, issues are focused on which attackers intend to exploit vulnerabilities in a CPPS. The goal is to support systems engineers in verification and validation tasks regarding security-oriented fault-tolerance.}}, author = {{Gräßler, Iris and Bodden, Eric and Pottebaum, Jens and Geismann, Johannes and Roesmann, Daniel}}, booktitle = {{Advanced, Contemporary Control, Advances in Intelligent Systems and Computing}}, pages = {{1458--1469}}, publisher = {{Springer International Publishing}}, title = {{{Security-Oriented Fault-Tolerance in Systems Engineering: A Conceptual Threat Modelling Approach for Cyber-Physical Production Systems}}}, volume = {{1196}}, year = {{2020}}, } @article{23468, abstract = {{AbstractThe value of models is well recognised in product and systems engineering. Modelling languages and diagrams are used to capture mental models and to handle model complexity. Literature research indicates that there are only very few approaches to utilise the potential of virtual and augmented reality for supporting tasks in model based (systems) engineering. The paper at hand contributes a new morphology of intuitive interaction for Immersive Abstraction as a holistic approach to extend that coverage. It presents a holistic framework to categorise solutions and future research directions.}}, author = {{Gräßler, Iris and Pottebaum, Jens}}, issn = {{2633-7762}}, journal = {{Proceedings of the Design Society: DESIGN Conference; 26. - 29. Okt. 2020}}, pages = {{1295--1304}}, publisher = {{Cambridge University Press}}, title = {{{Immersive Abstraction: A new Morphology of Intuitive Interaction with System Models}}}, doi = {{10.1017/dsd.2020.158}}, volume = {{Band 1}}, year = {{2020}}, } @inproceedings{23520, author = {{Gräßler, Iris and Roesmann, Daniel and Pottebaum, Jens}}, booktitle = {{Frühjahrskongress 2020 - Digitaler Wandel, digitale Arbeit, digitaler Mensch?; 16. - 18. Mrz. 2020}}, isbn = {{978-3-936804-27-0}}, pages = {{B.6.4}}, publisher = {{Gesellschaft für Arbeitswissenschaft e. V., Dortmund}}, title = {{{Entwicklung eines Prüfstands für die Bewertung von kompetenzbildenden Assistenzsystemen in Cyber-physischen Produktionssystemen}}}, year = {{2020}}, } @inproceedings{23519, author = {{Gräßler, Iris and Pottebaum, Jens and Taplick, Patrick and Roesmann, Daniel and Kamann, Markus}}, booktitle = {{Frühjahrskongress 2020 - Digitaler Wandel, digitale Arbeit, digitaler Mensch?; 16. - 18. Mrz. 2020}}, isbn = {{978-3-936804-27-0}}, pages = {{B.2.2}}, publisher = {{Gesellschaft für Arbeitswissenschaft e. V., Dortmund}}, title = {{{Produktdatenbasiertes, arbeitsgebundenes Lernen für und mit Augmented Reality in der Instandhaltung}}}, year = {{2020}}, } @article{23530, author = {{Pottebaum, Jens and Gräßler, Iris}}, journal = {{Konstruktion}}, number = {{(11-12)}}, pages = {{76--83}}, publisher = {{VDI-Verlag}}, title = {{{Informationsqualität in der Produktentwicklung: Modellbasiertes Systems Engineering mit expliziter Berücksichtigung von Unsicherheit}}}, doi = {{10.37544/0720-5953-2020-11-12-76}}, volume = {{72 (11-12)}}, year = {{2020}}, } @misc{48941, author = {{Meyberg, Sora and Treder, Alexandra}}, publisher = {{Friedrich-Schiller-Universität}}, title = {{{Mit Methoden der Drama- und Erzählpädagogik Fremdsprachen lernen}}}, year = {{2020}}, } @inbook{48963, author = {{Schulze, Max}}, booktitle = {{Provinz Editionen 2011-2020}}, editor = {{Gliem, Vera and Strsembski, Stephan}}, keywords = {{Editionen, Kunst, Fotografie, Siebdruck, Farbattentat}}, title = {{{Hunger (Eduardo Chillida) und Swingcolor}}}, year = {{2020}}, } @inbook{48957, author = {{Schulze, Max}}, booktitle = {{Salon #15}}, editor = {{Theewen, Gerhard }}, isbn = {{978-3-89770-523-4}}, pages = {{65--74}}, publisher = {{Salon Verlag}}, title = {{{Der Wunsch zu verschwinden}}}, year = {{2020}}, } @book{29817, author = {{Hartung, Olaf}}, isbn = {{978-3-17-022637-1}}, pages = {{178}}, publisher = {{W. Kohlhammer}}, title = {{{Museen und Geschichtsunterricht}}}, year = {{2020}}, } @inbook{49006, author = {{Moritz, Tilman}}, booktitle = {{Peter Paul Rubens und der Barock im Norden. Katalog zur Ausstellung im Erzbischöflichen Diözesanmuseum Paderborn}}, editor = {{Stiegemann, Christoph}}, isbn = {{978-3-7319-0956-9}}, pages = {{136–147}}, publisher = {{Michael Imhof}}, title = {{{Mehr Barock wagen. Neuordnungen des Fürstbistums Paderborn aus dem Dreißigjährigen Krieg}}}, year = {{2020}}, }