Commercial-off-the-shelf devices are often advocated as the only solution to the increasing performance requirements in space applications. This paper presents the solutions developed in the frame of the European Space Agencys HiRel program, concluded in December 2014, where a number of techniques proposed in the past 10 years have been used to design a highly reliable system, which has been selected for forthcoming space missions. This paper presents the system architecture, describes performed evaluations, and discusses the results
A major concern in digital electronics used in space is radiation-induced transient errors. Radiatio...
In this paper, a new approach is presented to assess the risk of using commercial off-the-shelf (COT...
Space applications have special requirements due to the particular environment into which they are d...
Commercial-off-the-shelf devices are often advocated as the only solution to the increasing performa...
In this position article, we motivate the necessity to introduce three software methods in spacecraf...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Future onboard computing applications require significantly greater computing performance than is cu...
Designing on-board computers (OBC) for future space missions is determined by the trade-off between ...
This paper presents an overview of some of the methodologies defined during the project “Development...
The computational demands of current space missions outrun the capability of available state-of-the-...
Testbed on the ARGOS Satellite provides the first direct, on orbit comparison of a modern radiation ...
By judiciously using COTS technology a new space computer product that has lower cost, higher perfor...
The increasing complexity of future satellite missions requires adequately powerful on- board comput...
This presentation describes the accelerating use of Commercial off the Shelf (COTS) parts in space a...
peer reviewedFuture space exploration and exploitation missions will require significantly increased...
A major concern in digital electronics used in space is radiation-induced transient errors. Radiatio...
In this paper, a new approach is presented to assess the risk of using commercial off-the-shelf (COT...
Space applications have special requirements due to the particular environment into which they are d...
Commercial-off-the-shelf devices are often advocated as the only solution to the increasing performa...
In this position article, we motivate the necessity to introduce three software methods in spacecraf...
Satellites and other space systems typically employ rare and expensive radiation tolerant, radiation...
Future onboard computing applications require significantly greater computing performance than is cu...
Designing on-board computers (OBC) for future space missions is determined by the trade-off between ...
This paper presents an overview of some of the methodologies defined during the project “Development...
The computational demands of current space missions outrun the capability of available state-of-the-...
Testbed on the ARGOS Satellite provides the first direct, on orbit comparison of a modern radiation ...
By judiciously using COTS technology a new space computer product that has lower cost, higher perfor...
The increasing complexity of future satellite missions requires adequately powerful on- board comput...
This presentation describes the accelerating use of Commercial off the Shelf (COTS) parts in space a...
peer reviewedFuture space exploration and exploitation missions will require significantly increased...
A major concern in digital electronics used in space is radiation-induced transient errors. Radiatio...
In this paper, a new approach is presented to assess the risk of using commercial off-the-shelf (COT...
Space applications have special requirements due to the particular environment into which they are d...