Research Article
Dependable and Efficient Cloud-Based Safety-Critical Applications by Example of Automated Valet Parking
@INPROCEEDINGS{10.1007/978-3-030-71454-3_6, author={Christian Drabek and Dhavalkumar Shekhada and Gereon Weiss and Mario Trapp and Tasuku Ishigooka and Satoshi Otsuka and Mariko Mizuochi}, title={Dependable and Efficient Cloud-Based Safety-Critical Applications by Example of Automated Valet Parking}, proceedings={Intelligent Transport Systems, From Research and Development to the Market Uptake. 4th EAI International Conference, INTSYS 2020, Virtual Event, December 3, 2020, Proceedings}, proceedings_a={INTSYS}, year={2021}, month={7}, keywords={Cyber-Physical Systems of Systems Automated recovery Monitoring Fail-operational Graceful degradation Self-awareness}, doi={10.1007/978-3-030-71454-3_6} }- Christian Drabek
Dhavalkumar Shekhada
Gereon Weiss
Mario Trapp
Tasuku Ishigooka
Satoshi Otsuka
Mariko Mizuochi
Year: 2021
Dependable and Efficient Cloud-Based Safety-Critical Applications by Example of Automated Valet Parking
INTSYS
Springer
DOI: 10.1007/978-3-030-71454-3_6
Abstract
Future embedded systems and services will be seamlessly connected and will interact on all levels with the infrastructure and cloud. For safety-critical applications this means that it is not sufficient to ensure dependability in a single embedded system, but it is necessary to cover the complete service chain including all involved embedded systems as well as involved services running in the edge or the cloud. However, for the development of such Cyber-Physical Systems-of-Systems (CPSoS) engineers must consider all kinds of dependability requirements. For example, it is not an option to ensure safety by impeding reliability or availability requirements. In fact, it is the engineers’ task to optimize the CPSoS’ performance without violating any safety goals.
