Location
67.203
Start Date
5-12-2016 2:00 PM
End Date
5-12-2016 2:45 PM
Presentation Type
Paper
Description
Abstract: Many organisations are currently moving their legacy systems to the cloud as it offers reduced cost, improved operational efficiency, on-demand, and pay-as-you-go service models. While any cloud migration scenario to make legacies cloud-enabled may have their own characteristics, there is no universally superior or applicable method for all scenarios. In situations like this, designing customisable methods that fit characteristics of migration scenarios would be pivotal for successful adoption of cloud computing. The literature review reveals that issues surrounding method tailoring for the cloud migration have so far been missing and this is despite the call made by previous researches to adopt a tailoring perspective to the cloud enablement. To effectively address this shortcoming, this study applied the idea of situational method engineering to develop a framework which facilitates the design and maintenance of bespoke cloud migration methods. The paper demonstrates the applicability of the proposed framework via presenting two scenarios.
Cloud Computing Adoption: An Effective Tailoring Approach
67.203
Abstract: Many organisations are currently moving their legacy systems to the cloud as it offers reduced cost, improved operational efficiency, on-demand, and pay-as-you-go service models. While any cloud migration scenario to make legacies cloud-enabled may have their own characteristics, there is no universally superior or applicable method for all scenarios. In situations like this, designing customisable methods that fit characteristics of migration scenarios would be pivotal for successful adoption of cloud computing. The literature review reveals that issues surrounding method tailoring for the cloud migration have so far been missing and this is despite the call made by previous researches to adopt a tailoring perspective to the cloud enablement. To effectively address this shortcoming, this study applied the idea of situational method engineering to develop a framework which facilitates the design and maintenance of bespoke cloud migration methods. The paper demonstrates the applicability of the proposed framework via presenting two scenarios.