Abstract—Cloud computing is probably the simplest and best fitted way for improving scalability and flexibility of a smart-grid, however, migrating such critical data-intensive applications to the cloud is not a trivial challenge. For such applications, high security, resilience, and performance are non-negotiable. Therefore, in order to successfully host critical smart-grid applications and workloads, new cloud paradigms and mechanisms should be adopted to support greater security, resilience, and performance. In this direction, an initiative by the Second University of Naples aims at ensuring the critical requirements of data-intensity applications in a highly distributed cloud federated environment, in which smart-grid applications represent a relevant case study.
CoSSMic smart grid migration in federated clouds
Amato, Alba;AVERSA, Rocco;FICCO, Massimo;VENTICINQUE, Salvatore
2016
Abstract
Abstract—Cloud computing is probably the simplest and best fitted way for improving scalability and flexibility of a smart-grid, however, migrating such critical data-intensive applications to the cloud is not a trivial challenge. For such applications, high security, resilience, and performance are non-negotiable. Therefore, in order to successfully host critical smart-grid applications and workloads, new cloud paradigms and mechanisms should be adopted to support greater security, resilience, and performance. In this direction, an initiative by the Second University of Naples aims at ensuring the critical requirements of data-intensity applications in a highly distributed cloud federated environment, in which smart-grid applications represent a relevant case study.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
