This paper assesses the soft error reliability of attitude estimation algorithms running on a resource-constrained microprocessor under neutron radiation. Results suggest that the EKF algorithm has the best trade-off between reliability and runtime overhead.</p
International audienceThis paper presents a new methodology for the simulation of soft errors in dig...
International audienceThis chapter surveys soft errors induced by natural radiation on advanced comp...
Terrestrial neutron-induced soft errors in semiconductor memory devices are currently a major concer...
This paper assesses the soft error reliability of attitude estimation algorithms running on a resour...
This work was partially funded by: MultiRad (PAI project funded by Région Auvergne-Rhône-Alpes); UK ...
International audienceThis paper investigates and assesses neutron radiation effects on the attitude...
International audienceThe space industry has been launching nanosatellites in order to reduce the we...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
International audienceMachine learning (ML) algorithms have been regaining momentum thanks to their ...
This work has been partially supported by: MultiRad project, funded by Région Auvergne-Rhône-Alpes's...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
Most safety-critical edge-computing devices rely on lightweight cryptography (LWC) algorithms to pro...
International audienceThis work evaluates the error-rate of a memorybound application implemented in...
International audienceThis work presents an approach to predict the error rates due to Single Event ...
International audienceHardware-implemented intelligent systems running autonomous functions and deci...
International audienceThis paper presents a new methodology for the simulation of soft errors in dig...
International audienceThis chapter surveys soft errors induced by natural radiation on advanced comp...
Terrestrial neutron-induced soft errors in semiconductor memory devices are currently a major concer...
This paper assesses the soft error reliability of attitude estimation algorithms running on a resour...
This work was partially funded by: MultiRad (PAI project funded by Région Auvergne-Rhône-Alpes); UK ...
International audienceThis paper investigates and assesses neutron radiation effects on the attitude...
International audienceThe space industry has been launching nanosatellites in order to reduce the we...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
International audienceMachine learning (ML) algorithms have been regaining momentum thanks to their ...
This work has been partially supported by: MultiRad project, funded by Région Auvergne-Rhône-Alpes's...
A mathematical model is described to predict microprocessor fault tolerance under radiation. The mod...
Most safety-critical edge-computing devices rely on lightweight cryptography (LWC) algorithms to pro...
International audienceThis work evaluates the error-rate of a memorybound application implemented in...
International audienceThis work presents an approach to predict the error rates due to Single Event ...
International audienceHardware-implemented intelligent systems running autonomous functions and deci...
International audienceThis paper presents a new methodology for the simulation of soft errors in dig...
International audienceThis chapter surveys soft errors induced by natural radiation on advanced comp...
Terrestrial neutron-induced soft errors in semiconductor memory devices are currently a major concer...