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Thorsten Weyer
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- affiliation: Technische Hochschule Mittelhessen, Gießen, Germany
- affiliation (former): University of Duisburg-Essen, Germany
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2020 – today
- 2024
- [e6]Daniel Méndez, Ana Moreira, Jennifer Horkoff, Thorsten Weyer, Maya Daneva, Michael Unterkalmsteiner, Stan Bühne, Jennifer Hehn, Birgit Penzenstadler, Oscar Dieste, Nelly Condori-Fernández, Renata S. S. Guizzardi, Khan Mohammad Habibullah, Anna Perini, Angelo Susi, Sallam Abualhaija, Chetan Arora, Davide Dell'Anna, Alessio Ferrari, Sepideh Ghanavati, Fabiano Dalpiaz, Jan-Philipp Steghöfer, Alexander Rachmann, Jens Gulden, Andrea Müller, Martina Beck, Dominik Birkmeier, Andrea Herrmann, Patrick Mennig, Kurt Schneider:
Joint Proceedings of REFSQ-2024 Workshops, Doctoral Symposium, Posters & Tools Track, and Education and Training Track co-located with the 30th International Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2024), Winterthur, Switzerland, April 8-11, 2024. CEUR Workshop Proceedings 3672, CEUR-WS.org 2024 [contents] - 2023
- [j18]Marian Daun, Jennifer Brings, Thorsten Weyer:
Model inspections in the engineering of collaborative cyber-physical systems with instance-level review diagrams. J. Softw. Evol. Process. 35(5) (2023) - [c58]Marian Daun, Jennifer Brings, Marcel Goger, Walter Koch, Thorsten Weyer:
Model-based Requirements Engineering in Industry: Experiences from Training and Application. Software Engineering 2023: 47-48 - [c57]Bastian Tenbergen, Thorsten Weyer:
Generating Review Models to Validate Safety Requirements. Software Engineering 2023: 117-118 - 2022
- [c56]Torsten Bandyszak, Marian Daun, Bastian Tenbergen, Patrick Kuhs, Stefanie Wolf, Thorsten Weyer:
Orthogonal Uncertainty Model: Documenting Uncertainty in the Engineering of Cyber-Physical Systems. Software Engineering 2022: 17-18 - [p14]Torsten Bandyszak, Thorsten Weyer, Marian Daun:
Uncertainty Theories for Real-Time Systems. Handbook of Real-Time Computing 2022: 99-132 - 2021
- [j17]Thorsten Weyer, Marian Daun, Bastian Tenbergen:
The Changing World and the Adapting Machine: How Digital Transformation Changes Requirements Engineering in the Embedded and Cyberphysical Systems Industry. IEEE Softw. 38(5): 83-91 (2021) - [j16]Bastian Tenbergen, Thorsten Weyer:
Generation of hazard relation diagrams: formalization and tool support. Softw. Syst. Model. 20(1): 175-210 (2021) - [c55]Marian Daun, Jennifer Brings, Marcel Goger, Walter Koch, Thorsten Weyer:
Teaching Model-Based Requirements Engineering to Industry Professionals: An Experience Report. ICSE (SEET) 2021: 40-49 - [c54]Marian Daun, Jennifer Brings, Thorsten Weyer:
Verbesserung manueller Validierungsprozesse von CPS-Spezifikationen durch Review-Modelle auf Instanzebene. Software Engineering 2021: 33-34 - [p13]Birthe Böhm, Wolfgang Böhm, Marian Daun, Alexander Hayward, Sieglinde Kranz, Nikolaus Regnat, Sebastian Schröck, Ingo Stierand, Andreas Vogelsang, Jan Vollmar, Sebastian Voss, Thorsten Weyer, Andreas Wortmann:
Engineering of Collaborative Embedded Systems. Model-Based Engineering of Collaborative Embedded Systems 2021: 15-48 - [p12]Torsten Bandyszak, Lisa Jöckel, Michael Kläs, Sebastian Törsleff, Thorsten Weyer, Boris Wirtz:
Handling Uncertainty in Collaborative Embedded Systems Engineering. Model-Based Engineering of Collaborative Embedded Systems 2021: 147-170 - [i5]Marian Daun, Jennifer Brings, Marcel Goger, Walter Koch, Thorsten Weyer:
Teaching Model-based Requirements Engineering to Industry Professionals: An Experience Report. CoRR abs/2103.04433 (2021) - 2020
- [j15]Jennifer Brings, Marian Daun, Kevin Keller, Patricia Aluko Obe, Thorsten Weyer:
A systematic map on verification and validation of emergent behavior in software engineering research. Future Gener. Comput. Syst. 112: 1010-1037 (2020) - [j14]Viktoria Stenkova, Marian Daun, Jennifer Brings, Thorsten Weyer:
Generische Negativszenarien in der Entwicklung kollaborativer cyber-physischer Systeme. Softwaretechnik-Trends 40(1): 27-28 (2020) - [j13]Torsten Bandyszak, Marian Daun, Bastian Tenbergen, Patrick Kuhs, Stefanie Wolf, Thorsten Weyer:
Orthogonal Uncertainty Modeling in the Engineering of Cyber-Physical Systems. IEEE Trans Autom. Sci. Eng. 17(3): 1250-1265 (2020) - [c53]Marian Daun, Jennifer Brings, Thorsten Weyer:
Do Instance-level Review Diagrams Support Validation Processes of Cyber-Physical System Specifications: Results from a Controlled Experiment. ICSSP 2020: 11-20 - [c52]Jennifer Brings, Marian Daun, Thorsten Weyer, Klaus Pohl:
Goal-based configuration analysis for networks of collaborative cyber-physical systems. SAC 2020: 1387-1396 - [c51]Marian Daun, Thorsten Weyer, Klaus Pohl:
Review-Modelle zur Unterstützung in der funktionszentrierten Entwicklung eingebetteter Systeme. SE 2020: 39-40
2010 – 2019
- 2019
- [j12]Jennifer Brings, Marian Daun, Torsten Bandyszak, Vanessa Stricker, Thorsten Weyer, Elham Mirzaei, Martin Neumann, Jan Stefan Zernickel:
Model-based documentation of dynamicity constraints for collaborative cyber-physical system architectures: Findings from an industrial case study. J. Syst. Archit. 97: 153-167 (2019) - [j11]Daniel Méndez Fernández, Wolfgang Böhm, Andreas Vogelsang, Jakob Mund, Manfred Broy, Marco Kuhrmann, Thorsten Weyer:
Artefacts in software engineering: a fundamental positioning. Softw. Syst. Model. 18(5): 2777-2786 (2019) - [j10]Marian Daun, Thorsten Weyer, Klaus Pohl:
Improving manual reviews in function-centered engineering of embedded systems using a dedicated review model. Softw. Syst. Model. 18(6): 3421-3459 (2019) - [c50]Viktoria Stenkova, Jennifer Brings, Marian Daun, Thorsten Weyer:
Generic Negative Scenarios for the Specification of Collaborative Cyber-Physical Systems. ER 2019: 412-419 - [c49]Marian Daun, Jennifer Brings, Lisa Krajinski, Thorsten Weyer:
On the benefits of using dedicated models in validation processes for behavioral specifications. ICSSP 2019: 44-53 - [c48]Thorsten Weyer, Anne Koziolek:
Preface: REFSQ 2019 Doctoral Symposium. REFSQ Workshops 2019 - [c47]Marian Daun, Viktoria Stenkova, Lisa Krajinski, Jennifer Brings, Torsten Bandyszak, Thorsten Weyer:
Goal modeling for collaborative groups of cyber-physical systems with GRL: reflections on applicability and limitations based on two studies conducted in industry. SAC 2019: 1600-1609 - [c46]Jennifer Brings, Marian Daun, Markus Kempe, Thorsten Weyer:
Validierung und Verifikation von emergentem Verhalten im Software Engineering - Ergebnisse eines Vergleichs unterschiedlicher Suchmethoden. SE/SWM 2019: 47-48 - [c45]Marian Daun, Jennifer Brings, Kevin Keller, Sarah Brinckmann, Thorsten Weyer:
Erfolgreicher Technologietransfer im Software Engineering - Transferansätze, Erfolgsfaktoren und Fallstricke. SE/SWM 2019: 135-136 - [e5]Paola Spoletini, Patrick Mäder, Daniel M. Berry, Fabiano Dalpiaz, Maya Daneva, Alessio Ferrari, Xavier Franch, Sarah Gregory, Eduard C. Groen, Andrea Herrmann, Anne Hess, Frank Houdek, Oliver Karras, Anne Koziolek, Kim Lauenroth, Cristina Palomares, Mehrdad Sabetzadeh, Norbert Seyff, Marcus Trapp, Andreas Vogelsang, Thorsten Weyer:
Joint Proceedings of REFSQ-2019 Workshops, Doctoral Symposium, Live Studies Track, and Poster Track co-located with the 25th International Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2019), Essen, Germany, March 18th, 2019. CEUR Workshop Proceedings 2376, CEUR-WS.org 2019 [contents] - 2018
- [j9]Bastian Tenbergen, Thorsten Weyer, Klaus Pohl:
Hazard Relation Diagrams: a diagrammatic representation to increase validation objectivity of requirements-based hazard mitigations. Requir. Eng. 23(2): 291-329 (2018) - [j8]Jennifer Brings, Marian Daun, Sarah Brinckmann, Kevin Keller, Thorsten Weyer:
Approaches, success factors, and barriers for technology transfer in software engineering - Results of a systematic literature review. J. Softw. Evol. Process. 30(11) (2018) - [c44]Torsten Bandyszak, Marian Daun, Bastian Tenbergerr, Thorsten Weyer:
Model-based Documentation of Context Uncertainty for Cyber-Physical Systems. CASE 2018: 1087-1092 - [c43]Wolfgang Böhm, Ingo Stierand, Andreas Vogelsang, Thorsten Weyer:
4th International Workshop on Emerging Ideas and Trends in Engineering of Cyber-Physical Systems (EITEC'18). EITEC@CPSWeek 2018: 1-2 - [c42]Jennifer Brings, Marian Daun, Markus Kempe, Thorsten Weyer:
On Different Search Methods for Systematic Literature Reviews and Maps: Experiences from a Literature Search on Validation and Verification of Emergent Behavior. EASE 2018: 35-45 - [c41]Marian Daun, Jennifer Brings, Thorsten Weyer:
A semi-automated approach to foster the validation of collaborative networks of cyber-physical systems. SEsCPS@ICSE 2018: 6-12 - [c40]Kevin Keller, Jennifer Brings, Marian Daun, Thorsten Weyer:
A Comparative Analysis of ITU-MSC-Based Requirements Specification Approaches Used in the Automotive Industry. SAM 2018: 183-201 - [c39]Bastian Tenbergen, Thorsten Weyer, Klaus Pohl:
Hazard Relation Diagrams. Software Engineering 2018: 137-138 - [e4]Ina Schaefer, Loek Cleophas, Michael Felderer, Steffen Becker, Wolfgang Böhm, Dirk Fahland, Hans-Georg Fill, Robert Heinrich, Kathrin Kirchner, Michael Köhler-Bußmeier, Marco Konersmann, Heinrich C. Mayr, Daniel Moldt, Andreas Oberweis, Felix Reher, Matthias Riebisch, Stefan Sauer, Holger Schlingloff, Bernhard Thalheim, Andreas Vogelsang, Rüdiger Weißbach, Thorsten Weyer:
Joint Proceedings of the Workshops at Modellierung 2018 co-located with Modellierung 2018, Braunschweig, Germany, February 21, 2018. CEUR Workshop Proceedings 2060, CEUR-WS.org 2018 [contents] - [i4]Daniel Méndez Fernández, Wolfgang Böhm, Andreas Vogelsang, Jakob Mund, Manfred Broy, Marco Kuhrmann, Thorsten Weyer:
Artefacts in Software Engineering: What are they after all? CoRR abs/1806.00098 (2018) - 2017
- [j7]Andrzej Wasowski, Thorsten Weyer:
Introduction to the theme issue on variability modeling of software-intensive systems. Softw. Syst. Model. 16(1): 49-51 (2017) - [j6]Andrzej Wasowski, Thorsten Weyer:
Erratum to: Introduction to the theme issue on variability modeling of software-intensive systems. Softw. Syst. Model. 16(1): 53 (2017) - [c38]Marian Daun, Jennifer Brings, Thorsten Weyer:
On the Impact of the Model-Based Representation of Inconsistencies to Manual Reviews - Results from a Controlled Experiment. ER 2017: 466-473 - [c37]Marian Daun, Bastian Tenbergen, Andrea Salmon, Thorsten Weyer, Klaus Pohl:
Project-based Learning with Examples from Industry in University Courses. Software Engineering 2017: 59-60 - [i3]Tobias Kaufmann, Thorsten Weyer:
Establishing Role-based Access Control in Viewpoint-oriented Variability Management. CoRR abs/1703.02754 (2017) - [i2]Marian Daun, Jennifer Brings, Thorsten Weyer:
On the Impact of the Model-based Representation of Inconsistencies to Manual Reviews: Results from a Controlled Experiment - Extended Version. CoRR abs/1707.02907 (2017) - [i1]Marian Daun, Carolin Hübscher, Thorsten Weyer:
Controlled Experiments with Student Participants in Software Engineering: Preliminary Results from a Systematic Mapping Study. CoRR abs/1708.04662 (2017) - 2016
- [j5]Marian Daun, Philipp Bohn, Jennifer Brings, Thorsten Weyer:
Structured Model-Based Engineering of Long-living Embedded Systems: The SPES Methodological Building Blocks Framework. Softwaretechnik-Trends 36(1) (2016) - [c36]Marian Daun, Jennifer Brings, Thorsten Weyer, Bastian Tenbergen:
Fostering concurrent engineering of cyber-physical systems a proposal for an ontological context framework. EITEC@CPSWeek 2016: 5-10 - [c35]Wolfgang Böhm, Ingo Stierand, Andreas Vogelsang, Thorsten Weyer:
Preface. EITEC@CPSWeek 2016: v-vi - [c34]Marian Daun, Andrea Salmon, Thorsten Weyer, Klaus Pohl, Bastian Tenbergen:
Project-Based Learning with Examples from Industry in University Courses: An Experience Report from an Undergraduate Requirements Engineering Course. CSEE&T 2016: 184-193 - [c33]Torsten Bandyszak, Micha Moffie, Abigail Goldsteen, Panos Melas, Bassem I. Nasser, Costas Kalogiros, Gabriele Barni, Sandro Hartenstein, Giorgos Giotis, Thorsten Weyer:
Supporting Coordinated Maintenance of System Trustworthiness and User Trust at Runtime. IFIPTM 2016: 96-112 - [c32]Marian Daun, Andrea Salmon, Torsten Bandyszak, Thorsten Weyer:
Common Threats and Mitigation Strategies in Requirements Engineering Experiments with Student Participants. REFSQ 2016: 269-285 - [p11]Wolfgang Böhm, Marian Daun, Vasileios Koutsoumpas, Andreas Vogelsang, Thorsten Weyer:
SPES XT Modeling Framework. Advanced Model-Based Engineering of Embedded Systems 2016: 29-42 - [p10]Marian Daun, Bastian Tenbergen, Jennifer Brings, Thorsten Weyer:
SPES XT Context Modeling Framework. Advanced Model-Based Engineering of Embedded Systems 2016: 43-57 - [p9]Wolfgang Böhm, Stefan Henkler, Frank Houdek, Andreas Vogelsang, Thorsten Weyer:
SPES XT Systems Engineering Extensions. Advanced Model-Based Engineering of Embedded Systems 2016: 59-71 - [p8]Karsten Albers, Stefan Beck, Matthias Büker, Marian Daun, John MacGregor, Andrea Salmon, Raphael Weber, Thorsten Weyer:
System Function Networks. Advanced Model-Based Engineering of Embedded Systems 2016: 119-144 - [p7]Torsten Bandyszak, Philipp Diebold, André Heuer, Thomas Kuhn, Antonio Vetrò, Thorsten Weyer:
Technology Transfer Concepts. Advanced Model-Based Engineering of Embedded Systems 2016: 241-250 - 2015
- [j4]Veronika Brandstetter, Andreas Froese, Bastian Tenbergen, Andreas Vogelsang, Jan Christoph Wehrstedt, Thorsten Weyer:
Early Validation of Automation Plant Control Software using Simulation Based on Assumption Modeling and Validation Use Cases. Complex Syst. Informatics Model. Q. 4: 50-65 (2015) - [j3]Raimundas Matulevicius, Thorsten Weyer:
Selected Topics on Enterprise and Automated Systems: Editorial Introduction to Issue 4 of CSIMQ. Complex Syst. Informatics Model. Q. 4: I-II (2015) - [c31]Veronika Brandstetter, Andreas Froese, Bastian Tenbergen, Andreas Vogelsang, Jan Christoph Wehrstedt, Thorsten Weyer:
Early Validation of Control Software for Automation Plants on the Example of a Seawater Desalination Plant. CAiSE Forum 2015: 189-196 - [c30]Nazila Gol Mohammadi, Torsten Bandyszak, Sachar Paulus, Per Håkon Meland, Thorsten Weyer, Klaus Pohl:
Extending Software Development Methodologies to Support Trustworthiness-by-Design. CAiSE Forum 2015: 213-220 - [c29]Nazila Gol Mohammadi, Torsten Bandyszak, Abigail Goldsteen, Costas Kalogiros, Thorsten Weyer, Micha Moffie, Bassem I. Nasser, Mike Surridge:
Combining Risk-Management and Computational Approaches for Trustworthiness Evaluation of Socio-Technical Systems. CAiSE Forum 2015: 237-244 - [c28]Marian Daun, Andrea Salmon, Thorsten Weyer, Klaus Pohl:
The impact of students' skills and experiences on empirical results: a controlled experiment with undergraduate and graduate students. EASE 2015: 29:1-29:6 - [c27]Torsten Bandyszak, Mark Rzepka, Thorsten Weyer, Klaus Pohl:
Supporting the Validation of Structured Analysis Specifications in the Engineering of Information Systems by Test Path Exploration. ICEIS (2) 2015: 252-259 - [c26]Marian Daun, Jennifer Brings, Torsten Bandyszak, Philipp Bohn, Thorsten Weyer:
Collaborating Multiple System Instances of Smart Cyber-physical Systems: A Problem Situation, Solution Idea, and Remaining Research Challenges. SEsCPS@ICSE 2015: 48-51 - [c25]Bastian Tenbergen, Thorsten Weyer, Klaus Pohl:
Supporting the Validation of Adequacy in Requirements-Based Hazard Mitigations. REFSQ 2015: 17-32 - [c24]Marian Daun, Thorsten Weyer, Klaus Pohl:
Detecting and Correcting Outdated Requirements in Function-Centered Engineering of Embedded Systems. REFSQ 2015: 65-80 - [c23]Marian Daun, Andrea Salmon, Thorsten Weyer:
Using dedicated Review Diagrams to detect Defective Functional Interplay in Function-Centered Engineering. Software Engineering (Workshops) 2015: 31-40 - [c22]Marian Daun, Bastian Tenbergen, Jennifer Brings, Thorsten Weyer:
Documenting Assumptions About the Operational Context of Long-Living Collaborative Embedded Systems. Software Engineering (Workshops) 2015: 115-117 - [c21]Ottmar Bender, Wolfgang Böhm, Frank Houdek, Stefan Henkler, Andreas Vogelsang, Thorsten Weyer:
FünfterWorkshop zur Zukunft der Entwicklung softwareintensiver eingebetteter Systeme (ENVISION2020). Software Engineering & Management 2015: 271-272 - [c20]Nazila Gol Mohammadi, Torsten Bandyszak, Costas Kalogiros, Michalis Kanakakis, Thorsten Weyer:
A Framework for Evaluating the End-to-End Trustworthiness. TrustCom/BigDataSE/ISPA (1) 2015: 638-645 - [e3]Raimundas Matulevicius, Thorsten Weyer, Peter Forbrig, Andrea Herrmann, Maya Daneva, Jörg Dörr, Anne Hoffmann, Axel Kalenborn, Marcus Trapp, Georg Herzwurm, Wolfram Pietsch, Annika Lenz, Sixten Schockert, Marian Daun, Cristina Palomares, Itzel Morales-Ramirez, Bastian Tenbergen, Barbara Paech, Roel J. Wieringa, Eric Knauss, Anna Perini:
Joint Proceedings of REFSQ-2015 Workshops, Research Method Track, and Poster Track co-located with the 21st International Conference on Requirements Engineering: Foundation for Software Quality (REFSQ 2015), Essen, Germany, March 23, 2015. CEUR Workshop Proceedings 1342, CEUR-WS.org 2015 [contents] - [e2]Wolf Zimmermann, Wolfgang Böhm, Clemens Grelck, Robert Heinrich, Reiner Jung, Marco Konersmann, Alexander Schlaefer, Eric Schmieders, Sibylle Schupp, Baltasar Trancón y Widemann, Thorsten Weyer:
Gemeinsamer Tagungsband der Workshops der Tagung Software Engineering 2015, Dresden, Germany, 17.-18. März 2015. CEUR Workshop Proceedings 1337, CEUR-WS.org 2015 [contents] - 2014
- [j2]Peter Braun, Manfred Broy, Frank Houdek, Matthias Kirchmayr, Mark Müller, Birgit Penzenstadler, Klaus Pohl, Thorsten Weyer:
Guiding requirements engineering for software-intensive embedded systems in the automotive industry. Comput. Sci. Res. Dev. 29(1): 21-43 (2014) - [c19]Marian Daun, Andrea Salmon, Bastian Tenbergen, Thorsten Weyer, Klaus Pohl:
Industrial case studies in graduate requirements engineering courses: The impact on student motivation. CSEE&T 2014: 3-12 - [c18]Wolfgang Böhm, Stefan Henkler, Frank Houdek, Andreas Vogelsang, Thorsten Weyer:
Bridging the Gap between Systems and Software Engineering by Using the SPES Modeling Framework as a General Systems Engineering Philosophy. CSER 2014: 187-194 - [c17]Marian Daun, Jens Höfflinger, Thorsten Weyer:
Function-centered Engineering of Embedded Systems - Evaluating Industry Needs and Possible Solutions. ENASE 2014: 226-234 - [c16]Marian Daun, Thorsten Weyer, Klaus Pohl:
Validating the Functional Design of Embedded Systems against Stakeholder Intentions. MODELSWARD 2014: 333-339 - [c15]Marian Daun, Jennifer Brings, Bastian Tenbergen, Thorsten Weyer:
On the Model-based Documentation of Knowledge Sources in the Engineering of Embedded Systems. Software Engineering (Workshops) 2014: 67-76 - [c14]Tobias Kaufmann, Christian Manz, Thorsten Weyer:
Extending the SPES Modeling Framework for Supporting Role-specific Variant Management in the Engineering Process of Embedded Software. Software Engineering (Workshops) 2014: 77-86 - [c13]Ottmar Bender, Wolfgang Böhm, Stefan Henkler, Oliver Sander, Andreas Vogelsang, Thorsten Weyer:
4. Workshop zur Zukunft der Entwicklung softwareintensiver eingebetteter Systeme (ENVISON2020). Software Engineering 2014: 213-214 - [c12]Nazila Gol Mohammadi, Torsten Bandyszak, Sachar Paulus, Per Håkon Meland, Thorsten Weyer, Klaus Pohl:
Extending Development Methodologies with Trustworthiness-By-Design for Socio-Technical Systems - (Extended Abstract). TRUST 2014: 206-207 - [c11]Nazila Gol Mohammadi, Torsten Bandyszak, Micha Moffie, Xiaoyu Chen, Thorsten Weyer, Costas Kalogiros, Bassem I. Nasser, Mike Surridge:
Maintaining Trustworthiness of Socio-Technical Systems at Run-Time. TrustBus 2014: 1-12 - [e1]Philippe Collet, Andrzej Wasowski, Thorsten Weyer:
The Eighth International Workshop on Variability Modelling of Software-intensive Systems, VaMoS '14, Sophia Antipolis, France, January 22-24, 2014. ACM 2014, ISBN 978-1-4503-2556-1 [contents] - 2013
- [c10]Nazila Gol Mohammadi, Azadeh Alebrahim, Thorsten Weyer, Maritta Heisel, Klaus Pohl:
A Framework for Combining Problem Frames and Goal Models to Support Context Analysis during Requirements Engineering. CD-ARES 2013: 272-288 - [c9]Nazila Gol Mohammadi, Sachar Paulus, Mohamed Bishr, Andreas Metzger, Holger Könnecke, Sandro Hartenstein, Thorsten Weyer, Klaus Pohl:
Trustworthiness Attributes and Metrics for Engineering Trusted Internet-Based Software Systems. CLOSER (Selected Papers) 2013: 19-35 - [c8]Sachar Paulus, Nazila Gol Mohammadi, Thorsten Weyer:
Trustworthy Software Development. Communications and Multimedia Security 2013: 233-247 - [c7]André Heuer, Tobias Kaufmann, Thorsten Weyer:
Extending an IEEE 42010-Compliant Viewpoint-Based Engineering-Framework for Embedded Systems to Support Variant Management. IESS 2013: 283-292 - [c6]Bastian Tenbergen, Philipp Bohn, Thorsten Weyer:
Ein strukturierter Ansatz zur Ableitung methodenspezifischer UML/SysML-Profile am Beispiel des SPES 2020 Requirements Viewpoints. Software Engineering (Workshops) 2013: 235-244 - [c5]Martin Große-Rhode, Peter Manhart, Ralf Mauersberger, Sebastian Schröck, Michael Schulze, Thorsten Weyer:
Anforderungen von Leitbranchen der deutschen Industrie an Variantenmanagement und Wiederverwendung und daraus resultierende Forschungsfragestellungen. Software Engineering (Workshops) 2013: 251-260 - [c4]Marian Daun, Jennifer Brings, Jens Höfflinger, Thorsten Weyer:
Funktionsgetriebene Entwicklung Software-intensiver eingebetteter Systeme in der Automobilindustrie - Stand der Wissenschaft und Forschungsfragestellungen. Software Engineering (Workshops) 2013: 293-302 - [c3]Ottmar Bender, Wolfgang Böhm, Stefan Henkler, Dietmar Sander, Andreas Vogelsang, Thorsten Weyer:
3. Workshop zur Zukunft der Entwicklung softwareintensiver eingebetteter Systeme (ENVISON2020). Software Engineering 2013: 361-362 - 2012
- [p6]Ottmar Bender, Martin Hiller, Bastian Tenbergen, Thorsten Weyer:
Requirements from the Application Domains. Model-Based Engineering of Embedded Systems 2012: 15-28 - [p5]Manfred Broy, Werner Damm, Stefan Henkler, Klaus Pohl, Andreas Vogelsang, Thorsten Weyer:
Introduction to the SPES Modeling Framework. Model-Based Engineering of Embedded Systems 2012: 31-49 - [p4]Marian Daun, Bastian Tenbergen, Thorsten Weyer:
Requirements Viewpoint. Model-Based Engineering of Embedded Systems 2012: 51-68 - [p3]Robert Hilbrich, J. Reinier van Kampenhout, Marian Daun, Thorsten Weyer, Dominik Sojer:
Modeling Quality Aspects: Real-Time. Model-Based Engineering of Embedded Systems 2012: 119-128 - [p2]Friedrich-W. Fasse, Christian Glomb, Johannes Grünbauer, André Heuer, Martin Klaus, Richard Kuntschke, Michael Laskowski, Thorsten Weyer:
Application and Evaluation in the Energy Domain. Model-Based Engineering of Embedded Systems 2012: 197-214 - 2010
- [b1]Thorsten Weyer:
Kohärenzprüfung von Verhaltensspezifikationen gegen spezifische Eigenschaften des operationellen Kontexts. University of Duisburg-Essen, 2010, pp. 1-220
2000 – 2009
- 2009
- [j1]Eva Geisberger, Matthias Kirchmayr, Mark Müller, Thorsten Weyer:
Entwicklung eines Praxisleitfadens für das modellbasierte Requirements Engineering softwareintensiver eingebetteter Systeme. Softwaretechnik-Trends 29(1) (2009) - 2008
- [c2]Thorsten Weyer, Klaus Pohl:
Eine Referenzstrukturierung zur modellbasierten Kontextanalyse im Requirements Engineering softwareintensiver eingebetteter Systeme. Modellierung 2008: 181-196 - 2007
- [c1]Thomas Rinke, Thorsten Weyer:
Defining Reference Models for Modelling Qualities: How Requirements Engineering Techniques Can Help. REFSQ 2007: 335-340 - 2005
- [p1]Klaus Pohl, Thorsten Weyer:
Documenting Variability in Requirements Artefacts. Software Product Line Engineering 2005: 89-113
Coauthor Index
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