@article{, author = {Petrovska, Ana and Kugele, Stefan and Hutzelmann, Thomas and Beffart, Theo and Bergemann, Sebastian and Pretschner, Alexander}, title = {Defining adaptivity and logical architecture for engineering (smart) self-adaptive cyber–physical systems}, publisher = {Elsevier}, journal = {Information and Software Technology}, volume = {147}, year = {2022}, month = jul, abstract = {Context: Modern cyber–physical systems (CPSs) are embedded in the physical world and intrinsically operate in a continuously changing and uncertain environment or operational context. To meet their business goals and preserve or even improve specific adaptation goals, besides the variety of run-time uncertainties and changes to which the CPSs are exposed—the systems need to self-adapt. Objective: The current literature in this domain still lacks a precise definition of what self-adaptive systems are and how they differ from those considered non-adaptive. Therefore, in order to answer how to engineer self-adaptive CPSs or self-adaptive systems in general, we first need to answer what is adaptivity, correspondingly self-adaptive systems. Method: In this paper, we first formally define the notion of adaptivity. Second, within the frame of the formal definitions, we propose a logical architecture for engineering decentralised self-adaptive CPSs that operate in dynamic, uncertain, and partially observable operational contexts. This logical architecture provides a structure and serves as a foundation for the implementation of a class of self-adaptive CPSs. Results: First, our results show that in order to answer if a system is adaptive, the right framing is necessary: the system’s adaptation goals, its context, and the time period in which the system is adaptive. Second, we discuss the benefits of our architecture by comparing it with the MAPE-K conceptual model. Conclusion: Commonly accepted definitions of adaptivity and self-adaptive systems are necessary for work in this domain to be compared and discussed since the same terms are often used with different semantics. Furthermore, in modern self-adaptive CPSs, which operate in dynamic and uncertain contexts, it is insufficient if the adaptation logic is specified during the system’s design, but instead, the adaptation logic itself needs to adapt and “learn” during run-time.}, issn = {0950-5849}, doi = {10.1016/j.infsof.2022.106866}, keywords = {Adaptivity, Quality function, Knowledge, Logical architecture, Self-adaptive cyber–physical systems, Model-based Systems Engineering, MbSE}, } @inproceedings{, author = {Prehofer, Christian and Schorp, Konstantin and Clarke, Daniel and Kugele, Stefan and Duchon, Markus}, title = {Towards a 3-tier architecture for connected vehicles}, booktitle = {Proceedings of the 1st International Conference on Connected Vehicles and Expo (ICCVE)}, year = {2014}, doi = {10.1109/ICCVE.2014.7297634}, }