Schedulability Analysis for Fixed Priority Real-Time Systems with Energy-Harvesting

Yasmina Abdeddaïm, Younes Chanderli, Damien Masson, Robert Ian Davis

Research output: Chapter in Book/Report/Conference proceedingConference contribution


This paper introduces sufficient schedulability tests for fixed-priority pre-emptive scheduling of a real-time system under energy constraints. In this problem, energy is harvested from the ambient environment and used to replenish a storage unit or battery. The set of real-time tasks is decomposed into two different types of task depending on whether their rate of energy consumption is (i) more than or (ii) no more than the storage unit replenishment rate. We show that for this task model, where execution may only take place when there is sufficient energy available, the worst-case scenario does not necessarily correspond to the synchronous release of all tasks. We derive sufficient schedulability tests based on the computation of worst-case response time upper and lower bounds. We examine both the effectiveness and the tightness of the bounds, via an empirical investigation.
Original languageEnglish
Title of host publicationProceedings of the 22nd International Conference on Real-Time Networks and Systems
Number of pages10
Publication statusPublished - Oct 2014

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