@inbook{22984, author = {{Lüke, Christopher and Timmermann, Julia and Kessler, Jan Henning and Trächtler, Ansgar}}, booktitle = {{Steigerung der Intelligenz mechatronischer Systeme}}, pages = {{153--192}}, publisher = {{Springer Vieweg}}, title = {{{Intelligente Steuerungen und Regelungen}}}, volume = {{1}}, year = {{2018}}, } @book{22985, author = {{Trächtler, Ansgar}}, publisher = {{Springer}}, title = {{{Ressourceneffiziente Selbstoptimierende Wäscherei}}}, year = {{2018}}, } @inproceedings{22986, author = {{Rüddenklau, Nico and Biemelt, Patrick and Henning, Sven and Gausemeier, Sandra and Trächtler, Ansgar}}, booktitle = {{SIMUL 2018, The Tenth International Conference on Advances in System Simulation}}, publisher = {{IARIA}}, title = {{{Shader-Based Realtime Simulation of High-Definition Automotive Headlamps}}}, year = {{2018}}, } @inproceedings{22987, author = {{Drüke, Simon and Bicker, Rainer and Schullter, Bernd and Henke, Christian and Trächtler, Ansgar}}, booktitle = {{Proceedings of the 10th International Conference on Rotor Dynamics - IFToMM. Vol. 2. International Conference on Rotor Dynamics - IFToMM}}, pages = {{383--397}}, publisher = {{Springer Nature Switzerland AG}}, title = {{{Rotordynamic instabilities in washing machines}}}, year = {{2018}}, } @article{22988, author = {{Gräler, Manuel and Springer, Robert and Henke, Christian and Trächtler, Ansgar and Homberg, Werner}}, journal = {{Swedish Production Symposium}}, pages = {{358--364}}, title = {{{Assisted setup of forming processes: compensation of initial stochastic disturbances}}}, volume = {{25}}, year = {{2018}}, } @inproceedings{22989, author = {{Rüting, Arne Thorsten and Henke, Christian and Trächtler, Ansgar}}, booktitle = {{EKA 2018 Entwurf komplexer Automatisierungssysteme - Beschreibungsmittel, Methoden, Werkzeuge und Anwendungen}}, publisher = {{IFAK - Institut für Automation und Kommunikation e.V.}}, title = {{{Umsetzung einer echtzeitfähigen Mehrgrößenoptimierung auf einer Industriesteuerung}}}, year = {{2018}}, } @article{22990, author = {{Springer, Robert and Graeler, Manuel and Homberg, Werner and Henke, Christian and Trächtler, Ansgar}}, journal = {{AIP Conference Proceedings}}, number = {{2018}}, title = {{{Model based Setup Assistant for Progressive Tools}}}, volume = {{160025}}, year = {{2018}}, } @inproceedings{22991, author = {{Millitzer, Jonathan and Mayer, Dirk and Jersch, Torben and Henke, Christian and Michael, Jan and Tamm, Christoph and Ranisch, Christopher}}, booktitle = {{IMAC-XXXVI Conference and Exposition on Structural Dynamics}}, publisher = {{Society for Experimental Mechanics, Inc.}}, title = {{{Recent Developments in Hardware-in-the-Loop Testing}}}, volume = {{XXXVI}}, year = {{2018}}, } @inproceedings{22992, author = {{Henning, Sven and Biemelt, Patrick and Rüddenklau, Nico and Gausemeier, Sandra and Trächtler, Ansgar}}, booktitle = {{Proceedings of the DSC 2018 Europe VR: New trends in Human in the Loop simulation and testing. Driving simulation and VR}}, pages = {{91--98}}, publisher = {{Driving Simulation Association}}, title = {{{A Simulation Framework for Testing a Conceptual Hierarchical Autonomous Traffic Management System including an Intelligent External Traffic Simulation}}}, year = {{2018}}, } @inproceedings{22994, author = {{Lankeit, Christopher and Michael, Jan and Henke, Christian and Trächtler, Ansgar}}, booktitle = {{Proceedings 1st International Workshop on Learning from other Disciplines for Requirements Engineering}}, pages = {{4--7}}, publisher = {{IEEE}}, title = {{{Holistic Requirements for Interdisciplinary Development Processes}}}, year = {{2018}}, } @article{22995, author = {{Pai, Arathi and Riepold, Markus and Trächtler, Ansgar}}, journal = {{Mechatronics}}, pages = {{303--320}}, title = {{{Model-based precision position and force control of SMA actuators with a clamping application}}}, volume = {{50}}, year = {{2018}}, } @article{22997, author = {{Olma, Simon and Kohlstedt, Andreas and Traphöner, Phillip and Jäker, Karl-Peter and Trächtler, Ansgar}}, journal = {{Mechatronics}}, pages = {{212--224}}, title = {{{Observer-based nonlinear control strategies for Hardware-in-the-Loop simulations of multiaxial suspension test rigs}}}, volume = {{50}}, year = {{2018}}, } @article{22998, author = {{Holtkötter, Jens and Michael, Jan and Henke, Christian and Trächtler, Ansgar and Bockholt, Marcos and Möhlenkamp, Andreas and Katter, Michael}}, journal = {{Procedia Manufacturing}}, pages = {{235–242}}, title = {{{Rapid-Control-Prototyping as part of Model-Based Development of Heat Pump Dryers}}}, volume = {{24}}, year = {{2018}}, } @inproceedings{23000, author = {{Biemelt, Patrick and Henning, Sven and Rüddenklau, Nico and Gausemeier, Sandra and Trächtler, Ansgar}}, booktitle = {{Proceedings of the Driving Simulation Conference Europe VR (DSC)}}, location = {{Antibes, France}}, pages = {{79--85}}, title = {{{A Model Predictive Motion Cueing Strategy for a 5-Degree-of-Freedom Driving Simulator with Hybrid Kinematics}}}, year = {{2018}}, } @misc{2320, author = {{Funke, Lars Christian}}, title = {{{Eignungsbewertung eines Enterprise Architecture Frameworks für das IT-Alignment zwischen Unternehmensstrategie und IT-Landschaft am Beispiel der Arvato SCM}}}, year = {{2018}}, } @inbook{2322, abstract = {{The vision of On-The-Fly Computing is an automatic composition of existing software services. Based on natural language software descriptions, end users will receive compositions tailored to their needs. For this reason, the quality of the initial software service description strongly determines whether a software composition really meets the expectations of end users. In this paper, we expose open NLP challenges needed to be faced for service composition in On-The-Fly Computing.}}, author = {{Bäumer, Frederik Simon and Geierhos, Michaela}}, booktitle = {{Proceedings of the 23rd International Conference on Natural Language and Information Systems}}, editor = {{Silberztein, Max and Atigui, Faten and Kornyshova, Elena and Métais, Elisabeth and Meziane, Farid }}, isbn = {{978-3-319-91946-1}}, keywords = {{Requirements Extraction, Temporal Reordering of Software Functions, Inaccuracy Compensation}}, location = {{Paris, France}}, pages = {{509--513}}, publisher = {{Springer}}, title = {{{How to Deal with Inaccurate Service Descriptions in On-The-Fly Computing: Open Challenges}}}, doi = {{10.1007/978-3-319-91947-8_53}}, volume = {{10859}}, year = {{2018}}, } @article{2331, abstract = {{A user generally writes software requirements in ambiguous and incomplete form by using natural language; therefore, a software developer may have difficulty in clearly understanding what the meanings are. To solve this problem with automation, we propose a classifier for semantic annotation with manually pre-defined semantic categories. To improve our classifier, we carefully designed syntactic features extracted by constituency and dependency parsers. Even with a small dataset and a large number of classes, our proposed classifier records an accuracy of 0.75, which outperforms the previous model, REaCT.}}, author = {{Kim, Yeongsu and Lee, Seungwoo and Dollmann, Markus and Geierhos, Michaela}}, issn = {{2207-6360}}, journal = {{International Journal of Advanced Science and Technology}}, keywords = {{Software Engineering, Natural Language Processing, Semantic Annotation, Machine Learning, Feature Engineering, Syntactic Structure}}, pages = {{123--136}}, publisher = {{SERSC Australia}}, title = {{{Improving Classifiers for Semantic Annotation of Software Requirements with Elaborate Syntactic Structure}}}, doi = {{10.14257/ijast.2018.112.12}}, volume = {{112}}, year = {{2018}}, } @inproceedings{2332, abstract = {{Ein wichtiges Element der Digitalen Transformation ist die Digitalisierung der Prozesse in Unternehmen. Eine Herausforderung besteht hierbei in der systematischen Erkennung von Digitalisierungspotenzialen in Prozessen. Bestehende Ansätze benötigen Experten, welche Potenziale über ihre Erfahrung oder zeitaufwendig mithilfe von Musterkatalogen identifizieren. In diesem Artikel werden verschiedene Digitalisierungspotenziale klassifiziert und Muster für ein zukünftiges musterbasiertes Analyseverfahren zur automatisierten Identifikation von Digitalisierungspotenzialen in BPMN-Diagrammen beschrieben. Im Vergleich zu bestehenden Ansätzen erlaubt es Experten die Identifizierung von Digitalisierungspotenzialen effizienter und effektiver durchzuführen.}}, author = {{Rittmeier, Florian and Engels, Gregor and Teetz, Alexander}}, booktitle = {{Joint Proceedings of the Workshops at Modellierung 2018 co-located with Modellierung 2018, Braunschweig, Germany, February 21, 2018.}}, keywords = {{Digitalisierungspotenziale, BPI, Digitale Transformation, Information Flow-Modellierung, Patterns, Requirements Engineering}}, pages = {{215----221}}, publisher = {{CEUR-WS.org}}, title = {{{Digitalisierungspotenziale in Geschäftsprozessen effizient und effektiv erkennen (Effective and Efficient Identification of Digitalization Potentials in Business Processes)}}}, volume = {{2060}}, year = {{2018}}, } @inproceedings{21696, abstract = {{Theimplementation of additive manufacturing as an industrial manufacturing process poses extraordinary challenges to companies due to their far-reaching differences to conventional processes. In addition to the major differences in the production process, the pre and post process steps in particular also require a rethinking for companies and their employees. To overcome these challenges and specifically to assist SMEs in the integration of technologies five industrial companies are researching together within research project "OptiAMix", funded by the German Federal Ministry of Education and Research (BMBF) and coordinated by the Paderborn University. This paper focuses on the development of an optimal and standardized process chain and its implementation in a general integration methodology. This enables the standardized integration of additivemanufacturing in order to create a uniform understanding of the procedures and tasks within the company for the industrial application of additive manufacturing at an early stage as well as the full exploitation of its high potentials. Therefore, the methodology also includes other technology-specific components such as strategic component selection, decision support for "make or buy" and the implementation of automated component marking.}}, author = {{Büsching, J. and Lindemann, C. and Jahnke, U. and Kruse, A. and Koch, R.}}, booktitle = {{29th Annual International Solid Freeform Fabrication Symposium}}, pages = {{14--31}}, title = {{{Technology Integration into Existing Companies}}}, doi = {{http://utw10945.utweb.utexas.edu/sites/default/files/2018/002%20TechnologyIntegrationintoExistingCompanies.pdf}}, volume = {{29}}, year = {{2018}}, } @book{21817, author = {{Goller, Michael}}, isbn = {{978-3-946023-04-3}}, keywords = {{Bahnhofsmission, Survey Feedback, Monitoring}}, pages = {{200}}, publisher = {{IN VIA Verlag}}, title = {{{Monitoring für die Bahnhofsmissionen: Ein datengestütztes Instrument zur Organisationsentwicklung. Projektbeschreibung und Ergebnisdarstellung}}}, year = {{2018}}, }