@article{22833, author = {{Mai, Lukas and Zanders, David and Subaşı, Ersoy and Ciftyurek, Engin and Hoppe, Christian and Rogalla, Detlef and Gilbert, Wolfram and Arcos, Teresa de los and Schierbaum, Klaus and Grundmeier, Guido and Bock, Claudia and Devi, Anjana}}, issn = {{1944-8244}}, journal = {{ACS Applied Materials & Interfaces}}, pages = {{3169--3180}}, title = {{{Low-Temperature Plasma-Enhanced Atomic Layer Deposition of Tin(IV) Oxide from a Functionalized Alkyl Precursor: Fabrication and Evaluation of SnO2-Based Thin-Film Transistor Devices}}}, doi = {{10.1021/acsami.8b16443}}, year = {{2019}}, } @inproceedings{22834, author = {{Hordych, Illia and Herbst, Sebastian and Nürnberger, Florian and Schmidt, Hans Christian and Orive, Alejandro Gonzalez and Homberg, Werner and Grundmeier, Guido and Maier, Hans Jürgen}}, booktitle = {{PROCEEDINGS OF THE 22ND INTERNATIONAL ESAFORM CONFERENCE ON MATERIAL FORMING: ESAFORM 2019}}, title = {{{The role of heat-treatments performed before and after a cold roll bonding process of galvanized steel sheets}}}, doi = {{10.1063/1.5112581}}, year = {{2019}}, } @inbook{22835, author = {{Tasche, Lennart and Hoyer, Kay-Peter and Zhuravlev, Evgeny and Grundmeier, Guido and Schaper, Mirko and Keßler, Olaf}}, booktitle = {{TMS 2019 148th Annual Meeting & Exhibition Supplemental Proceedings}}, issn = {{2367-1181}}, title = {{{Surface Inoculation of Aluminium Powders for Additive Manufacturing Guided by Differential Fast Scanning Calorimetry}}}, doi = {{10.1007/978-3-030-05861-6_45}}, year = {{2019}}, } @inproceedings{22970, author = {{Biemelt, Patrick and Mertin, Sven and Rüddenklau, Nico and Gausemeier, Sandra and Trächtler, Ansgar}}, booktitle = {{Proceedings of the International Conference on Advances in System Simulation (SIMUL)}}, location = {{Valencia, Spain}}, publisher = {{IARIA}}, title = {{{Objective Evaluation of a Novel Filter-Based Motion Cueing Algorithm in Comparison to Optimization-Based Control in Interactive Driving Simulation}}}, year = {{2019}}, } @inbook{22971, author = {{Rüddenklau, Nico and Biemelt, Patrick and Mertin, Sven and Gausemeier, Sandra and Trächtler, Ansgar}}, booktitle = {{13th International Symposium on Automotive Lighting (ISAL)}}, pages = {{677--686}}, publisher = {{utzverlag GmbH}}, title = {{{Simulation-Based Lighting Function Development of High-Definition Headlamps}}}, volume = {{18}}, year = {{2019}}, } @inproceedings{22972, author = {{Mertin, Sven and Buse, Dominik and Franke, Mario and Trächtler, Ansgar and Gausemeier, Sandra and Dressler, Falko}}, booktitle = {{VDI/VDE AUTOREG 2019}}, pages = {{159--170}}, publisher = {{VDI Verlag Düsseldorf}}, title = {{{Proof-of-Concept einer komplexen Co-Simulationsumgebung für einen Fahrsimulator zur Untersuchung von Car2X-Kommunikations-Szenarien}}}, year = {{2019}}, } @inbook{22973, author = {{Rüddenklau, Nico and Gausemeier, Sandra and Trächtler, Ansgar}}, booktitle = {{VDI/VDE AUTOREG 2019}}, publisher = {{VDI- Verlag, Düsseldorf}}, title = {{{Hardware-in-the-Loop Simulation of High-Definition Headlamp Systems}}}, year = {{2019}}, } @inproceedings{22974, author = {{Nareyko, Georgi and Koch, Thorsten and Trächtler, Ansgar}}, booktitle = {{VDI/VDE Fachtagung AUTOREG}}, title = {{{Model Predictive Control of an Active Roll Stabilization System}}}, year = {{2019}}, } @article{22975, author = {{Gräler, Manuel and Wallow, Astrid and Henke, Christian and Trächtler, Ansgar}}, journal = {{Procedia CIRP}}, pages = {{1348–1353}}, title = {{{Assisted setup of forming processes: architecture for the integration of non-adjustable disturbances}}}, volume = {{81}}, year = {{2019}}, } @inproceedings{22976, author = {{Michael, Jan and Henke, Christian and Trächtler, Ansgar}}, booktitle = {{Syscon 2019 - The 13th Annual IEEE International Systems Conference}}, pages = {{524--531}}, publisher = {{IEEE SYSCON}}, title = {{{Decentralized Energy Management for Smart Home System of Systems}}}, volume = {{13}}, year = {{2019}}, } @inproceedings{22977, author = {{Schütz, Stefan and Rüting, Arne Thorsten and Henke, Christian and Trächtler, Ansgar}}, booktitle = {{Fachtagung Mechatronik 2019}}, pages = {{43--48}}, publisher = {{VDI Mechatronik}}, title = {{{Regelung kollaborativer Robotersysteme zur benutzerfreundlichen, flexiblen Fertigung kleiner Losgrößen am Beispiel eines halbautomatischen Schweißvorgangs}}}, volume = {{13}}, year = {{2019}}, } @article{22978, author = {{Riepold, Markus and Maslo, Semir and Han, Ge and Henke, Christian and Trächtler, Ansgar}}, journal = {{Vibroengineering PROCEDIA}}, pages = {{47--52}}, title = {{{Open-loop linearization for piezoelectric actuator with inverse hysteresis model}}}, volume = {{22}}, year = {{2019}}, } @article{22979, author = {{Rüting, Arne Thorsten and Henke, Christian and Trächtler, Ansgar}}, journal = {{at-Automatisierungstechnik}}, number = {{4}}, pages = {{326–336}}, title = {{{Umsetzung einer echtzeitfähigen modellprädiktiven Trajektorienplanung für eine mehrachsige Hybridkinematik auf einer Industriesteuerung}}}, volume = {{67}}, year = {{2019}}, } @inproceedings{22980, author = {{Traphöner, Phillip and Olma, Simon and Kohlstedt, Andreas and Fast, Nikolai and Jäker, Karl-Peter and Trächtler, Ansgar}}, booktitle = {{8th IFAC Symposium on Mechatronic Systems}}, title = {{{Hardware-in-the-Loop Simulation for a Multiaxial Suspension Test Rig with a Nonlinear Spatial Vehicle Dynamics Model}}}, year = {{2019}}, } @inproceedings{22981, author = {{Traphöner, Phillip and Kohlstedt, Andreas and Olma, Simon and Jäker, Karl-Peter and Trächtler, Ansgar}}, booktitle = {{13. VDI/VDE Mechatronik-Tagung}}, pages = {{85--90}}, publisher = {{VDI-Verlag}}, title = {{{Hardware-in-the-Loop-Simulation einer Fahrzeugachse mit aktiver Wankstabilisierung mithilfe eines hydraulischen Hexapoden}}}, year = {{2019}}, } @inbook{22982, author = {{Rüddenklau, Nico and Biemelt, Patrick and Mertin, Sven and Gausemeier, Sandra and Trächtler, Ansgar}}, booktitle = {{IARIA SysMea}}, pages = {{72--88}}, publisher = {{IARIA}}, title = {{{Real-Time Lighting of High-Definition Headlamps for Night Driving Simulation}}}, volume = {{12}}, year = {{2019}}, } @book{22983, author = {{Kruse, Daniel}}, publisher = {{Heinz Nixdorf Institut, Universität Paderborn}}, title = {{{Teilautomatisierte Parameteridentifikation für die Validierung von Dynamikmodellen im modellbasierten Entwurf mechatronischer Systeme}}}, volume = {{388}}, year = {{2019}}, } @inproceedings{23378, author = {{Piskachev, Goran and Do, Lisa Nguyen Quang and Bodden, Eric}}, booktitle = {{Proceedings of the 28th ACM SIGSOFT International Symposium on Software Testing and Analysis}}, title = {{{Codebase-adaptive detection of security-relevant methods}}}, doi = {{10.1145/3293882.3330556}}, year = {{2019}}, } @techreport{23389, abstract = {{Background - Software companies increasingly rely on static analysis tools to detect potential bugs and security vulnerabilities in their software products. In the past decade, more and more commercial and open-source static analysis tools have been developed and are maintained. Each tool comes with its own reporting format, preventing an easy integration of multiple analysis tools in a single interface, such as the Static Analysis Server Protocol (SASP). In 2017, a collaborative effort in industry, including Microsoft and GrammaTech, has proposed the Static Analysis Results Interchange Format (SARIF) to address this issue. SARIF is a standardized format in which static analysis warnings can be encoded, to allow the import and export of analysis reports between different tools. Purpose - This paper explains the SARIF format through examples and presents a proof of concept of the connector that allows the static analysis tool CogniCrypt to generate and export its results in SARIF format. Design/Approach - We conduct a cross-sectional study between the SARIF format and CogniCrypt's output format before detailing the implementation of the connector. The study aims to find the components of interest in CogniCrypt that the SARIF export module can complete. Originality/Value - The integration of SARIF into CogniCrypt described in this paper can be reused to integrate SARIF into other static analysis tools. Conclusion - After detailing the SARIF format, we present an initial implementation to integrate SARIF into CogniCrypt. After taking advantage of all the features provided by SARIF, CogniCrypt will be able to support SASP.}}, author = {{Kummita, Sriteja and Piskachev, Goran}}, keywords = {{Static Analysis, Static Analysis Results Interchange Format, SARIF, Static Analysis Server Protocol, SASP}}, title = {{{Integration of the Static Analysis Results Interchange Format in CogniCrypt}}}, year = {{2019}}, } @inproceedings{23395, author = {{Gerking, Christopher and Budde, Ingo}}, booktitle = {{2019 ACM/IEEE 22nd International Conference on Model Driven Engineering Languages and Systems Companion (MODELS-C)}}, title = {{{Heuristic Inference of Model Transformation Definitions from Type Mappings}}}, doi = {{10.1109/models-c.2019.00031}}, year = {{2019}}, }