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Talks and Poster Presentations (with Proceedings-Entry):

H. Truong, L. Berardinelli:
"Testing Uncertainty of Cyber-Physical Systems in IoT Cloud Infrastructures: Combining Model-Driven Engineering and Elastic Execution";
Talk: 1st ACM SIGSOFT International Workshop on Testing Embedded and Cyber-Physical Systems (TECPS 2017) co-located with ISSTA 2017, Santa Barbara, CA, USA; 2017-07-10 - 2017-07-14; in: "Proceedings of the 1st ACM SIGSOFT International Workshop on Testing Embedded and Cyber-Physical Systems (TECPS 2017) co-located with ISSTA 2017", T. Yu, D. Marinov (ed.); ACM, (2017), ISBN: 978-1-4503-5112-6; 5 - 8.



English abstract:
Today's cyber-physical systems (CPS) span IoT and cloud-based datacenter infrastructures, which are highly heterogeneous with various types of uncertainty. Thus, testing uncertainties in these CPS is a challenging and multidisciplinary activity. We need several tools for modeling, deployment, control, and analytics to test and evaluate uncertainties for different configurations of the same CPS. In this paper, we explain why using state-of-the art model-driven engineering (MDE) and model-based testing (MBT) tools is not adequate for testing uncertainties of CPS in IoT Cloud infrastructures. We discus how to combine them with techniques for elastic execution to dynamically provision both CPS under test and testing utilities to perform tests in various IoT Cloud infrastructures.

Keywords:
testing, elasticity, uncertainty, IoT, Cloud, MDE, MBT


"Official" electronic version of the publication (accessed through its Digital Object Identifier - DOI)
http://dx.doi.org/10.1145/3107091.3107093



Related Projects:
Project Head Hong-Linh Truong:
Testing Cyber-Physical Systems under Uncertainlty, Systematic, Extensible, and Configurable Model-based and Search-based Testing Methodologies


Created from the Publication Database of the Vienna University of Technology.