PRIMAmob-UML: a methodology for performance analysis of mobile software architectures
WOSP '02 Proceedings of the 3rd international workshop on Software and performance
Automatic generation of layered queuing software performance models from commonly available traces
Proceedings of the 5th international workshop on Software and performance
SYNTONY: network protocol simulation based on standard-conform UML 2 models
Proceedings of the 2nd international conference on Performance evaluation methodologies and tools
The Future of Software: Adaptation and Dependability
Software Engineering
Context-Aware Adaptive Services: The PLASTIC Approach
FASE '09 Proceedings of the 12th International Conference on Fundamental Approaches to Software Engineering: Held as Part of the Joint European Conferences on Theory and Practice of Software, ETAPS 2009
Performance property prediction supporting variability for adaptive mobile systems
Proceedings of the 15th International Software Product Line Conference, Volume 2
Performance modeling and analysis of context-aware mobile software systems
FASE'10 Proceedings of the 13th international conference on Fundamental Approaches to Software Engineering
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The market of portable computational devices is expanding more and more rapidly. The systems created by the interactions of these devices among themselves and with the surrounding infrastructure result in being quite different from existing traditional systems in terms of connectivity, dynamicity and resource availability. As a consequence, existing performance evaluation and prediction techniques appear to be inadequate to the application to mobile systems. While some adaptations have been proposed for systems presenting some logical mobility (i.e., software mobility), very little has been attempted to provide useful performance prediction methodologies for physically mobile systems.In this paper we present a methodology for modeling performance of physically mobile systems: our aim is to provide guidelines for the designer of the system on how particular physical mobility patterns affect the system performance and on how these measures can be taken into account in the early stages of the system development.