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{{Publikation Details
 
|Abstract=Disaster recovery planning and securing business processes against outtakes have been essential parts of running a company for decades. As IT systems became more important, and especially since more and more revenue is generated over the Internet, securing the IT systems that support the business processes against outages is essential. Using fully operational standby sites with periodically updated standby systems is a well-known approach to prepare against disasters. Setting up and maintaining a second datacenter is, however, expensive. In this work, we present Cloud Standby, a warm standby approach for setting up and updating a standby system in the Cloud. We describe the ar-chitecture of Cloud Standby and its methods for deploying and updating the standby system. We show that by using Cloud Standby the recovery time and long-term costs of disaster recovery can significantly be reduced.
 
|Abstract=Disaster recovery planning and securing business processes against outtakes have been essential parts of running a company for decades. As IT systems became more important, and especially since more and more revenue is generated over the Internet, securing the IT systems that support the business processes against outages is essential. Using fully operational standby sites with periodically updated standby systems is a well-known approach to prepare against disasters. Setting up and maintaining a second datacenter is, however, expensive. In this work, we present Cloud Standby, a warm standby approach for setting up and updating a standby system in the Cloud. We describe the ar-chitecture of Cloud Standby and its methods for deploying and updating the standby system. We show that by using Cloud Standby the recovery time and long-term costs of disaster recovery can significantly be reduced.
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|Download=LenkESOCC2014.pdf,
 
|Forschungsgruppe=Ökonomie und Technologie der eOrganisation
 
|Forschungsgruppe=Ökonomie und Technologie der eOrganisation
 
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}}

Aktuelle Version vom 26. Juni 2014, 08:34 Uhr


Cloud Standby: Disaster Recovery of Distributed Systems in the Cloud


Cloud Standby: Disaster Recovery of Distributed Systems in the Cloud



Published: 2014 September

Buchtitel: Service-Oriented and Cloud Computing
Reihe: Lecture Notes in Computer Science
Verlag: Springer
Erscheinungsort: Berlin Heidelberg
Organisation: Third European Conference, ESOCC 2014, Manchester, UK, September 02-04, 2014. Proceedings

Referierte Veröffentlichung

BibTeX

Kurzfassung
Disaster recovery planning and securing business processes against outtakes have been essential parts of running a company for decades. As IT systems became more important, and especially since more and more revenue is generated over the Internet, securing the IT systems that support the business processes against outages is essential. Using fully operational standby sites with periodically updated standby systems is a well-known approach to prepare against disasters. Setting up and maintaining a second datacenter is, however, expensive. In this work, we present Cloud Standby, a warm standby approach for setting up and updating a standby system in the Cloud. We describe the ar-chitecture of Cloud Standby and its methods for deploying and updating the standby system. We show that by using Cloud Standby the recovery time and long-term costs of disaster recovery can significantly be reduced.

Download: Media:LenkESOCC2014.pdf



Forschungsgruppe

Ökonomie und Technologie der eOrganisation


Forschungsgebiet

Cloud Computing