Hybrid metaheuristic approach for scheduling of aperiodic OS tasks

Abstract

This book chapter deals with the purpose of one hybrid approach for solving the real-time embedded systems scheduling composed of aperiodic OS tasks which are used to control physical processes that range in complexity from automobile ignition systems to controllers for flight systems and nuclear power plants. In these systems, the correctness of system functions depends upon not only the results of computation but also on the times at which results are produced. This book chapter presents real-time scheduling techniques for reducing the response time of aperiodic tasks scheduled with real-time periodic tasks on uniprocessor systems where two problems are addressed: (i) the scheduling of aperiodic tasks when they arrive in order to obtain a feasible system, and (ii) the scheduling of periodic and aperiodic tasks to minimize their response time. Indeed, in order to improve the responsiveness to both types of problems, our approach proposed in this book chapter presents an efficient hybrid methaheuristic based on the combination of the Polling Server (PS) and the Background Server (BS). The effectiveness and the performance of the designed approach are evaluated through simulation studies. A tool named RT-Reconfiguration is developed in our research laboratory at INSAT Institute to support this new proposed approach.