Difference between revisions of "DAIS 2018"
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|has workshop chair=Luis Llana, Ngoc-Thanh | |has workshop chair=Luis Llana, Ngoc-Thanh | ||
|has Keynote speaker=Paolo Romano, Véronique Cortier, Franco Zambonelli | |has Keynote speaker=Paolo Romano, Véronique Cortier, Franco Zambonelli | ||
| + | |Submitted papers=33 | ||
| + | |Accepted papers=10 | ||
| + | |Accepted short papers=2 | ||
| + | |has Proceedings Link=https://link.springer.com/content/pdf/10.1007%2F978-3-319-93767-0.pdf | ||
| + | |has Proceedings DOI=https://doi.org/10.1007/978-3-319-93767-0 | ||
| + | |has Proceedings Bibliography=https://link.springer.com/book/10.1007%2F978-3-319-93767-0 | ||
| + | |pageCreator=Tolga.karaarslan | ||
| + | |pageEditor=Tolga.karaarslan | ||
| + | |contributionType=1 | ||
}} | }} | ||
==Topics== | ==Topics== | ||
Latest revision as of 19:49, 1 April 2022
| DAIS 2018 | |
|---|---|
18th IFIP International Conference on Distributed Applications and Interoperable Systems
| |
| Event in series | DAIS |
| Dates | 2018/06/18 (iCal) - 2018/06/21 |
| Homepage: | http://2018.discotec.org/cfp dais.html |
| Location | |
| Location: | Madrid, Spain |
| Important dates | |
| Abstracts: | 2018/02/16 |
| Papers: | 2018/02/23 |
| Submissions: | 2018/02/23 |
| Notification: | 2018/03/30 |
| Camera ready due: | 2018/04/15 |
| Accepted short papers: | 2 |
| Papers: | Submitted 33 / Accepted 10 (30.3 %) |
| Committees | |
| General chairs: | Manuel Núñez |
| Workshop chairs: | Luis Llana, Ngoc-Thanh |
| Keynote speaker: | Paolo Romano, Véronique Cortier, Franco Zambonelli |
| Table of Contents | |
Topics
Novel and innovative distributed applications and systems, particularly in areas of:
- middleware,
- cloud computing,
- edge and fog computing,
- big data processing,
- streaming and complex event processing,
- social networking,
- cyber-physical systems,
- mobile computing,
- advanced networking (SDN/NFV),
- service-oriented computing, and
- peer-to-peer systems;
Novel architectures and mechanisms, particularly in areas of:
- publish/subscribe systems,
- language-based approaches,
- data center and internet-scale systems,
- virtualization and resource allocation,
- distributed storage,
- blockchains, cryptocurrencies and smart contracts, and
- bio-inspired distributed computing;
System issues and design goals, including:
- interoperability and adaptation,
- self-* properties (e.g., self-organization, self-management, ...),
- security and practical applications of cryptography,
- trust and privacy,
- cooperation incentives and fairness,
- fault-tolerance and dependability,
- scalability and elasticity, and
- tail-performance and energy-efficiency