English

FEMOSAA: Feature Guided and Knee Driven Multi-Objective Optimization for Self-Adaptive Software

Software Engineering 2018-04-24 v2

Abstract

Self-adaptive software (SAS) can reconfigure itself to adapt to the changing environment at runtime, aiming for continually optimizing conflicted non-functional objectives, e.g., response time, energy consumption, throughput and cost etc. In this paper, we present Feature guided and knEe driven Multi-Objective optimization for Self-Adaptive softwAre (FEMOSAA), a novel framework that automatically synergizes the feature model and Multi-Objective Evolutionary Algorithm (MOEA), to optimize SAS at runtime. FEMOSAA operates in two phases: at design time, FEMOSAA automatically transposes the engineers' design of SAS, expressed as a feature model, to fit the MOEA, creating new chromosome representation and reproduction operators. At runtime, FEMOSAA utilizes the feature model as domain knowledge to guide the search and further extend the MOEA, providing a larger chance for finding better solutions. In addition, we have designed a new method to search for the knee solutions, which can achieve a balanced trade-off. We comprehensively evaluated FEMOSAA on two running SAS: one is a highly complex SAS with various adaptable real-world software under the realistic workload trace, another is a service-oriented SAS that can be dynamically composed from services. In particular, we compared the effectiveness and overhead of FEMOSAA against four of its variants and three other search-based frameworks for SAS under various scenarios, including three commonly applied MOEAs, two workload patterns and diverse conflicting quality objectives. The results reveal the effectiveness of FEMOSAA and its superiority over the others with high statistical significance and non-trivial effect sizes.

Keywords

Cite

@article{arxiv.1608.08933,
  title  = {FEMOSAA: Feature Guided and Knee Driven Multi-Objective Optimization for Self-Adaptive Software},
  author = {Tao Chen and Ke Li and Rami Bahsoon and Xin Yao},
  journal= {arXiv preprint arXiv:1608.08933},
  year   = {2018}
}

Comments

This paper has been accepted by TOSEM as a Journal First paper, please cite it using the following citation: Tao Chen, Ke Li, Rami Bahsoon, and Xin Yao. 2018. FEMOSAA: Feature Guided and Knee Driven MultiObjective Optimization for Self-Adaptive Software. ACM Transactions on Software Engineering and Methodology, in press, 2018, DOI: 10.1145/3204459

R2 v1 2026-06-22T15:36:47.689Z