Author | Paverd, Andrew; Völp, Marcus; Brasser, Ferdinand; Schunter, Matthias; Asokan, N.; Sadeghi, Ahmad-Reza; Esteves-Verissimo, Paulo; Steininger, Andreas; Holz, Thorsten |
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Date | 2019 |
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Type | Conference Proceedings |
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Abstract | A significant proportion of today’s information and communication technology (ICT) systems are entrusted with high value assets,
and our modern society has become increasingly dependent on
these systems operating safely and securely over their anticipated
lifetimes. However, we observe a mismatch between the lifetimes
expected from ICT-supported systems (such as autonomous cars)
and the duration for which these systems are able to remain safe
and secure, given the spectrum of threats they face. Whereas most
systems today are constructed within the constraints of foreseeable
technology advancements, we argue that long term, i.e., sustainable security & safety, requires anticipating the unforeseeable and
preparing systems for threats not known today. In this paper, we set
out our vision for sustainable security & safety. We summarize the
main challenges in realizing this desideratum in real-world systems,
and we identify several design principles that could address these
challenges and serve as building blocks for achieving this vision. |
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Conference | 4th International Workshop on Security and Dependability of Critical Embedded Real-Time Systems (CERTS) |
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Url | https://tubiblio.ulb.tu-darmstadt.de/id/eprint/113741 |
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