The increasing complexity of space missions, their software architectures, and hardware that has to meet the demands for those missions, imposes numerous new challenges for many engineering disciplines such as reliability engineering. Affected by the ever growing demand for more onboard computation power are the onboard computers. They in return require Fault Detection, Isolation, and Recovery (FDIR) architectures to support their fault tolerant operation in the harsh environment of space. Especially high performance commercial processing units face the challenge of dealing with negative radiation effects, which may significantly degrade their operation. To design performant and fault tolerant onboard computers, it is of high interest to as...
International audienceFaults in spacecraft systems are an important problem, mainly because of the c...
Fault-tolerance technique enables a system or application to continue working even if some fault /er...
Redundancy concepts are an integral part of the design of space systems. Deciding when to activate w...
Future space missions will demand greater capabilities regarding the processing of sensor data on on...
This research contributes to a better understanding of how reconfigurable Field Programmable Gate Ar...
Redundancy concepts are major design drivers in fault-tolerant space systems. It can be a difficult ...
Health monitoring of spacecrafts is a crucial task in Space operations. Fault Detection, Isolation a...
Failure detection, identification and recovery (FDIR) has been an important and necessary instrume...
On-board Fault Detection, Isolation and Recovery (FDIR) systems are considered to ensure the safety ...
Modern satellite complexity is increasing, thus requiring bespoke and expensive on-board solutions t...
Reliability analysis of fault tolerant computer systems for critical applications is complicated by ...
Spaceborne computing systems must provide reliable, continuous operation for extended periods. Due t...
The correct operation of complex critical systems increasingly relies on the ability to detect and r...
This paper's main purpose is to detail issues and lessons learned regarding designing, integrating, ...
Fault Tree Analysis (FTA) has undergone significant development since its inception in the early 196...
International audienceFaults in spacecraft systems are an important problem, mainly because of the c...
Fault-tolerance technique enables a system or application to continue working even if some fault /er...
Redundancy concepts are an integral part of the design of space systems. Deciding when to activate w...
Future space missions will demand greater capabilities regarding the processing of sensor data on on...
This research contributes to a better understanding of how reconfigurable Field Programmable Gate Ar...
Redundancy concepts are major design drivers in fault-tolerant space systems. It can be a difficult ...
Health monitoring of spacecrafts is a crucial task in Space operations. Fault Detection, Isolation a...
Failure detection, identification and recovery (FDIR) has been an important and necessary instrume...
On-board Fault Detection, Isolation and Recovery (FDIR) systems are considered to ensure the safety ...
Modern satellite complexity is increasing, thus requiring bespoke and expensive on-board solutions t...
Reliability analysis of fault tolerant computer systems for critical applications is complicated by ...
Spaceborne computing systems must provide reliable, continuous operation for extended periods. Due t...
The correct operation of complex critical systems increasingly relies on the ability to detect and r...
This paper's main purpose is to detail issues and lessons learned regarding designing, integrating, ...
Fault Tree Analysis (FTA) has undergone significant development since its inception in the early 196...
International audienceFaults in spacecraft systems are an important problem, mainly because of the c...
Fault-tolerance technique enables a system or application to continue working even if some fault /er...
Redundancy concepts are an integral part of the design of space systems. Deciding when to activate w...