Uniprocessor Scheduling for Real-Time Energy Harvesting Applications

Energy management is a central problem in real-time systems design, in particular for embedded wireless devices. Whereas a great number of work was carried out in order to minimize the energy consumption and maximize the lifetime achieved as in classical battery operated devices, few studies have been devoted to emerging harvesting systems which need to operate perennially thanks to the environmental energy. In such systems, the consumed energy comes at the same time from the computing nodes and the supports of transmission/reception. In this book, we focus on systems that receive their energy from an environmental source (for example, solar energy). Under these assumptions, the objective is to ensure a perennial functioning of the real-time system that must be able to operate indefinitely in the respect of its timing requirements. So the problem we have to deal with is: How can we schedule tasks so as to guarantee their timing constraints perpetually by suitably exploiting both the processor and the available ambient energy.

Autorentext

received the engineering degree from the Lebanese University in 2002. He also received the degree of Doctor in automatics and applied informatics from the University of Nantes, France in 2012. He is a member of the IRCCyN Laboratory from 2009. His research interests concern real-time scheduling with particular emphasis on energy harvesting systems.