International audienceSmall satellites, such as CubeSats, have to respect time, spatial and energy constraints in the harsh space environment. To tackle this issue, this paper presents and evaluates two fault tolerant online scheduling algorithms: the algorithm scheduling all tasks as aperiodic (called ONEOFF) and the algorithm placing arriving tasks as aperiodic or periodic tasks (called ONEOFF&CYCLIC). Based on several scenarios, the results show that the performances of ordering policies are influenced by the system load and the proportions of simple and double tasks to all tasks to be executed. The "Earliest Deadline" and "Earliest Arrival Time" ordering policies for ONEOFF or the "Minimum Slack" ordering policy for ONEOFF&CYCLIC reject...
Satellite scheduling is a requirement for automating routines and tasks prior to execution on given ...
We evaluate four scheduling algorithms for satellite communications that use the Time Division Multi...
We describe a timeline-based scheduling algorithm developed for mission operations of the EO-1 earth...
International audienceSmall satellites, such as CubeSats, have to respect time, spatial and energy c...
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 audienceEnergy and reliability constraints play an important role in performances of e...
The thesis is concerned with online mapping and scheduling of tasks on multiprocessor embedded syste...
Fault-tolerance plays an important role in improving the reliability of multiple earth-observing sat...
CubeSat is a small-sized satellite that provides a cheaper option for the manufacturer to have a ful...
Space missions are characterized by long distances, difficult or unavailable communication and high ...
We derive an autonomous scheduling system for low earth orbiting store-and-forward communications na...
With the popularization of satellite technology and the normal development of satellite use, the num...
Imaging satellite scheduling is an NP-hard problem with many complex constraints. This paper researc...
Satellite scheduling is a requirement for automating routines and tasks prior to execution on given ...
We evaluate four scheduling algorithms for satellite communications that use the Time Division Multi...
We describe a timeline-based scheduling algorithm developed for mission operations of the EO-1 earth...
International audienceSmall satellites, such as CubeSats, have to respect time, spatial and energy c...
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 audienceEnergy and reliability constraints play an important role in performances of e...
The thesis is concerned with online mapping and scheduling of tasks on multiprocessor embedded syste...
Fault-tolerance plays an important role in improving the reliability of multiple earth-observing sat...
CubeSat is a small-sized satellite that provides a cheaper option for the manufacturer to have a ful...
Space missions are characterized by long distances, difficult or unavailable communication and high ...
We derive an autonomous scheduling system for low earth orbiting store-and-forward communications na...
With the popularization of satellite technology and the normal development of satellite use, the num...
Imaging satellite scheduling is an NP-hard problem with many complex constraints. This paper researc...
Satellite scheduling is a requirement for automating routines and tasks prior to execution on given ...
We evaluate four scheduling algorithms for satellite communications that use the Time Division Multi...
We describe a timeline-based scheduling algorithm developed for mission operations of the EO-1 earth...