An evaluation of multi-model self-managing control schemes for adaptive performance management of software systems

Due to the increasing complexity of software systems and the dynamic unpredictable environments they operate in, methodologies to incorporate self-adaptation into these systems have been investigated in recent years. The feedback control loop has been one of the key concepts used in building self-ad...

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Bibliographic Details
Published in:The Journal of systems and software 2012-12, Vol.85 (12), p.2678-2696
Main Authors: Patikirikorala, Tharindu, Colman, Alan, Han, Jun, Wang, Liuping
Format: Article
Language:English
Subjects:
Adaptive control
Feedback control
Feedback control systems
Multi-model
Performance management
Product quality
Quality of service
Reconfiguring control
Self-managing systems
Software engineering
Studies
Systems design
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Summary:Due to the increasing complexity of software systems and the dynamic unpredictable environments they operate in, methodologies to incorporate self-adaptation into these systems have been investigated in recent years. The feedback control loop has been one of the key concepts used in building self-adaptive software systems to manage their performance among other quality aspects. In order to design an effective feedback control loop for a software system, modeling the behavior of the software system with sufficient accuracy is paramount. In general, there are many environmental conditions and system states that impact on the performance of a software system. As a consequence, it is impractical to characterize the diverse behavior of such a software system using a single system model. To represent such highly nonlinear behavior and to provide effective runtime control, the design, integration and self-management (automatic switching) of multiple system models and controllers are required. In this paper, we investigate a control engineering approach, called Multi-Model Switching and Tuning (MMST) adaptive control, to assess its effectiveness for the adaptive performance management of software systems. We have conducted a range of experiments with two of the most promising MMST adaptive control schemes under different operating conditions of a representative software system. The experiment results have shown that the MMST control schemes are superior in managing the performance of the software system, compared with a number of other control schemes based on a single model. We have also investigated the impact of the configuration parameters for the MMST schemes to provide design guidance. A library of MMST schemes has been implemented to aid the software engineer in developing MMST-based self-managing control schemes for software systems.
ISSN:0164-1212
1873-1228
DOI:10.1016/j.jss.2012.05.077