Add to ORKGEquations which define the reliability of n-fold parallel systems with stand-by spares, and triply redundant, majority-voting systems with stand-by spares have been derived. The stand-by spares have been assumed to have a non-zero failure rate while in the stand-by mode. A Monte Carlo system simulation has been generated and the results compared to the theoretical reliability predictions. A comparison of these two stand-by configurations is also presented for three through six total units
Failure free electronic systems - statistical quality measurement, adaptive voter, failure responsiv...
A complex system may consist of a number of subsystems with several components in series, parallel, ...
Advances in spaceborne vehicular technology have made possible the long-life duration of the mission...
A method is proposed to compute the transition probability (the probability of partial or total fail...
A combinatorial reliability approach is used to identify potential dynamic power conversion systems ...
Failure free systems studies - integrated circuits, majority voted redundancy, and self-repairing sy...
This report analyzes the reliability of NASA's Ultra-reliable Fault Tolerant Control System (UFTCS) ...
Development and testing of integrated circuits and redundant systems for circuit reliability and fai...
It is sometimes optimistically hoped that a space life support system can be kept working throughout...
Reliability analysis often assumes that a complex system can be kept operating indefinitely with sch...
The current tendency of flight control system designs is towards increased integration of applicatio...
This paper considers a stand by redundant system consisting of two identical modules. Each module is...
The reliability of voting was evaluated in a fault-tolerant software system for small output spaces....
A parallelized system, ASSURE, for computing the reliability of embedded avionics flight control sys...
Hardware redundant fault-tolerant systems and the different design approaches are discussed. The rel...
Failure free electronic systems - statistical quality measurement, adaptive voter, failure responsiv...
A complex system may consist of a number of subsystems with several components in series, parallel, ...
Advances in spaceborne vehicular technology have made possible the long-life duration of the mission...
A method is proposed to compute the transition probability (the probability of partial or total fail...
A combinatorial reliability approach is used to identify potential dynamic power conversion systems ...
Failure free systems studies - integrated circuits, majority voted redundancy, and self-repairing sy...
This report analyzes the reliability of NASA's Ultra-reliable Fault Tolerant Control System (UFTCS) ...
Development and testing of integrated circuits and redundant systems for circuit reliability and fai...
It is sometimes optimistically hoped that a space life support system can be kept working throughout...
Reliability analysis often assumes that a complex system can be kept operating indefinitely with sch...
The current tendency of flight control system designs is towards increased integration of applicatio...
This paper considers a stand by redundant system consisting of two identical modules. Each module is...
The reliability of voting was evaluated in a fault-tolerant software system for small output spaces....
A parallelized system, ASSURE, for computing the reliability of embedded avionics flight control sys...
Hardware redundant fault-tolerant systems and the different design approaches are discussed. The rel...
Failure free electronic systems - statistical quality measurement, adaptive voter, failure responsiv...
A complex system may consist of a number of subsystems with several components in series, parallel, ...
Advances in spaceborne vehicular technology have made possible the long-life duration of the mission...