Add to ORKGAn experiment was conducted to characterize the effects of HIRF-induced upsets on a prototype onboard data network. The experiment was conducted at the NASA Langley Research Center s High Intensity Radiation Field Laboratory and used a generic distributed system prototyping platform to realize the data network. This report presents the results of the hardware susceptibility threshold characterization which examined the dependence of measured susceptibility on factors like the frequency and modulation of the radiation, layout of the physical nodes and position of the nodes in the test chamber. The report also includes lessons learned during the development and execution of the experiment
The purpose of this test is to determine the heavy ion-induced single-event effect (SEE) susceptibil...
We present the results of single event effects (SEE) testing and analysis investigating the effects ...
Space is a hostile environment for electronic systems. The levels of ionizing radiation in space can...
An increasing number of flight research and airborne science experiments now contain network-ready s...
Preliminary data analysis for a physical fault injection experiment of a digital system exposed to H...
The high intensity radiated fields (HIRF) certification process as currently implemented is comprise...
The NASA Engineering and Safety Center (NESC) has an urgent need to understand how system-level reli...
We present the results of single events effects (SEE) testing and analysis investigating the effects...
Spacecraft subsystem performance deterioration caused by nuclear radiation on space mission
This paper applies a previously developed sensor data qualification technique to a commercial aircra...
This report presents the methodology and results of a subjective study done by Polytechnic Universit...
It is known that high intensity radiated fields (HIRF) can produce upsets in digital electronics, an...
Large round trip communications latency for deep space missions will require more onboard computatio...
We present results for the single-event effect response of commercial production-level resistive ran...
The development of new space communications technologies by NASA has included both commercial applic...
The purpose of this test is to determine the heavy ion-induced single-event effect (SEE) susceptibil...
We present the results of single event effects (SEE) testing and analysis investigating the effects ...
Space is a hostile environment for electronic systems. The levels of ionizing radiation in space can...
An increasing number of flight research and airborne science experiments now contain network-ready s...
Preliminary data analysis for a physical fault injection experiment of a digital system exposed to H...
The high intensity radiated fields (HIRF) certification process as currently implemented is comprise...
The NASA Engineering and Safety Center (NESC) has an urgent need to understand how system-level reli...
We present the results of single events effects (SEE) testing and analysis investigating the effects...
Spacecraft subsystem performance deterioration caused by nuclear radiation on space mission
This paper applies a previously developed sensor data qualification technique to a commercial aircra...
This report presents the methodology and results of a subjective study done by Polytechnic Universit...
It is known that high intensity radiated fields (HIRF) can produce upsets in digital electronics, an...
Large round trip communications latency for deep space missions will require more onboard computatio...
We present results for the single-event effect response of commercial production-level resistive ran...
The development of new space communications technologies by NASA has included both commercial applic...
The purpose of this test is to determine the heavy ion-induced single-event effect (SEE) susceptibil...
We present the results of single event effects (SEE) testing and analysis investigating the effects ...
Space is a hostile environment for electronic systems. The levels of ionizing radiation in space can...