|Title||Kriging Controllers for Cloud Applications|
|Publication Type||Journal Article|
|Year of Publication||2013|
|Authors||Toffetti-Carughi, G., A. Gambi, M. Pezzè, and C. Pautasso|
|Journal||IEEE Internet Computing|
|Keywords||automatic control, autonomic computing, autonomic controller, cloud computing|
Infrastructure as a Service is a Cloud computing paradigm that enables service providers to execute applications on third-party infrastructures with the pay-as-you-go billing model. Service providers can balance operational costs and quality of service by monitoring the application behavior and changing the deployed configuration at runtime as operating conditions change. Current approaches for automatically scaling cloud applications exploit user defined rules that respond well to events that can be predicted at design time, but have no provision for learning, hence do not react adequately to unexpected execution conditions. In this article we present a new approach for designing autonomic controllers that automatically adapt to unpredicted conditions by dynamically updating a model of the system behavior. The approach demonstrates Kriging models as a suitable means to design efficient autonomic controllers.
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