International audienceEnergy and reliability constraints play an important role in performances of embedded multiprocessor systems. This paper proposes an online fault tolerant energy-aware scheduling algorithm called OneOffEnergy. It is designed for energy-constrained applications, such as CubeSats, with aim to make these small satellites more robust and to reduce energy consumption. We propose to take advantage of multiprocessor architecture and put together all CubeSat processors on one board. This multiprocessor system makes use of our devised algorithm, which schedules all tasks aboard a CubeSat, detects faults and takes appropriate measures in order to deliver correct results subject to limited energy resources.OneOffEnergy operates i...
Task mapping and scheduling are critical in minimizing energy consumption while satisfying the perfo...
Miniaturized satellites enable a variety space missions which were in the past infeasible, impractic...
This paper discusses the design of the Flight Computing System for PurdueSat – a 2-U CubeSat being d...
International audienceMore than 21 000 objects fly in outer space and are exposed to the harsh space...
International audienceCubeSats are small satellites operating in harsh space environment. In order t...
International audienceSmall satellites, such as CubeSats, have to respect time, spatial and energy c...
The thesis is concerned with online mapping and scheduling of tasks on multiprocessor embedded syste...
Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro Tecnológico, Programa de Pós...
Fault tolerance and energy have become important design issues in multiprocessor system-on-chips (So...
In this contribution, we present a CubeSat-compatible on-board computer (OBC) architecture that offe...
NTNU Test Satellite (NUTS) is a student-built double CubeSat with a scheduled launch in 2015. The pr...
Over the past several decades, we have experienced tremendous growth of real-time systems in both sc...
CubeSat is a small-sized satellite that provides a cheaper option for the manufacturer to have a ful...
Task mapping and scheduling are critical in minimizing energy consumption while satisfying the perfo...
Miniaturized satellites enable a variety space missions which were in the past infeasible, impractic...
This paper discusses the design of the Flight Computing System for PurdueSat – a 2-U CubeSat being d...
International audienceMore than 21 000 objects fly in outer space and are exposed to the harsh space...
International audienceCubeSats are small satellites operating in harsh space environment. In order t...
International audienceSmall satellites, such as CubeSats, have to respect time, spatial and energy c...
The thesis is concerned with online mapping and scheduling of tasks on multiprocessor embedded syste...
Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro Tecnológico, Programa de Pós...
Fault tolerance and energy have become important design issues in multiprocessor system-on-chips (So...
In this contribution, we present a CubeSat-compatible on-board computer (OBC) architecture that offe...
NTNU Test Satellite (NUTS) is a student-built double CubeSat with a scheduled launch in 2015. The pr...
Over the past several decades, we have experienced tremendous growth of real-time systems in both sc...
CubeSat is a small-sized satellite that provides a cheaper option for the manufacturer to have a ful...
Task mapping and scheduling are critical in minimizing energy consumption while satisfying the perfo...
Miniaturized satellites enable a variety space missions which were in the past infeasible, impractic...
This paper discusses the design of the Flight Computing System for PurdueSat – a 2-U CubeSat being d...