ATMOSPHERE Adaptive, Trustworthy, Manageable, Orchestrated, Secure, Privacy-assuring, Hybrid Ecosystem for REsilient Cloud Computing
Description
ATMOSPHERE is a 24-month project aiming at the design and development of an ecosystem comprised of a framework and a platform enabling the implementation of next generation trustworthy cloud services on top of an intercontinental hybrid and federated resource pool. The framework considers a broad spectrum of trustworthiness properties and their measures. The platform supports the development, build, deployment, measurement and evolution of trustworthy cloud resources, data management services and data processing services, and is demonstrated on a sensitive scenario consisting of a cloud-enabled secure and trustworthy application for distributed telemedicine.Researchers
Marco Vieira (coordinator)
Bruno Cabral
Nuno Laranjeiro
Nuno Antunes
Naghmeh Ramezani Ivaki
Edmundo Monteiro
Paulo Simões
Cristiano Inácio Lemes
José Alexandre D'Abruzzo Pereira
Bruno Cabral
Nuno Laranjeiro
Nuno Antunes
Naghmeh Ramezani Ivaki
Edmundo Monteiro
Paulo Simões
Cristiano Inácio Lemes
José Alexandre D'Abruzzo Pereira
Funded by
H2020Keywords
Trustworthiness; Security; Dependability; Cloud; Big DataStart Date
2017-11-01End Date
2019-10-31Conference Articles
2018
(3 publications)- Cunha, M. and Laranjeiro, N. , "Assessing Containerized REST Services Performance in the Presence of Operator Faults", in 14th European Dependable Computing Conference (EDCC 2018), 2018
- João R. Campos and Marco Vieira and Costa, E. , "Exploratory Study of Machine Learning Techniques for Supporting Failure Prediction", in 2018 14th European Dependable Computing Conference (EDCC), 2018
- Matheus Torquato and Marco Vieira , "Interacting SRN models for Availability Evaluation of VM Migration as rejuvenation on a system under varying workload", in 2018 IEEE International Symposium on Software Reliability Engineering Workshops (ISSREW), 2018