@Article{Bencomo2019, author="Bencomo, Nelly and G{\"o}tz, Sebastian and Song, Hui", title="Models@run.time: a guided tour of the state of the art and research challenges", journal="Software {\&} Systems Modeling", year="2019", month="Jan", day="09", abstract="More than a decade ago, the research topic models@run.time was coined. Since then, the research area has received increasing attention. Given the prolific results during these years, the current outcomes need to be sorted and classified. Furthermore, many gaps need to be categorized in order to further develop the research topic by experts of the research area but also newcomers. Accordingly, the paper discusses the principles and requirements of models@run.time and the state of the art of the research line. To make the discussion more concrete, a taxonomy is defined and used to compare the main approaches and research outcomes in the area during the last decade and including ancestor research initiatives. We identified and classified 275 papers on models@run.time, which allowed us to identify the underlying research gaps and to elaborate on the corresponding research challenges. Finally, we also facilitate sustainability of the survey over time by offering tool support to add, correct and visualize data.", issn="1619-1374", doi="10.1007/s10270-018-00712-x", url="https://doi.org/10.1007/s10270-018-00712-x" }

@inproceedings{assmann2019cross, title={Cross-Layer Adaptation in Multi-layer Autonomic Systems (Invited Talk)}, author={A{\ss}mann, Uwe and Grzelak, Dominik and Mey, Johannes and Pukhkaiev, Dmytro and Sch{"o}ne, Ren{\'e} and Werner, Christopher and P{"u}schel, Georg}, booktitle={International Conference on Current Trends in Theory and Practice of Informatics}, pages={1--20}, year={2019}, organization={Springer} }

@inproceedings{mai_architecture_2019, location = {Da Lat, Vietnam}, title = {An Architecture for a Distributed Lean Innovation Management System}, volume = {10(1)}, abstract = {The current trend for innovation management is going upward, the startup scene is more active than ever and new processes and trends to foster these innovations are developed constantly. Although we can see such an upwards trend, there is not as much development in software architectures supporting innovation management. In this work, a requirements analysis for such a software architecture was done based on various innovation processes. Finally, we propose this architecture as a system of systems together with our current reference implementation. The system is evaluated in various user studies, e.g., teaching, practical use at a university, and innovation competitions.}, eventtitle = {The 11th International Conference on Computer Research and Development ({ICCRD})}, booktitle = {International Journal of Innovation, Management and Technology ({IJIMT})}, author = {Mai, Carl and Grzelak, Dominik and Zia, Mariam and Lemme, Diana and AƟmann, Uwe}, date = {2019-01-26}, langid = {english} }

@inproceedings{Seiger:2019:CSW:3302509.3313317, author = {Seiger, Ronny and A\ssmann, Uwe}, title = {Consistency and Synchronization for Workflows in Cyber-physical Systems: Poster Abstract}, booktitle = {Proceedings of the 10th ACM/IEEE International Conference on Cyber-Physical Systems}, series = {ICCPS '19}, year = {2019}, isbn = {978-1-4503-6285-6}, location = {Montreal, Quebec, Canada}, pages = {312--313}, numpages = {2}, url = {http://doi.acm.org/10.1145/3302509.3313317}, doi = {10.1145/3302509.3313317}, acmid = {3313317}, publisher = {ACM}, address = {New York, NY, USA}, keywords = {cyber-physical systems, digital twins, workflows}, }