RBs / SOFTWARE FAULT TOLERANT SYSTEMS / Fault Tolerant Software / Computer-Based Systems / IEEE Computer Society Press / LeBlance S.P. / Reliable Distributed Systems / Hybrid Fault-Tolerant Software / /
Country
Thailand / United States / /
Currency
pence / /
Facility
The George Washington University / Engineering Mongkut’s University of Technology Thonburi / Chiang Mai University / University of Pittsburgh / King Mongkut’s University of Technology Thonburi / /
IndustryTerm
software system / conventional hardware/software error detection mechanism / faulttolerant software / software versions i.e. / fault-tolerant software systems / software failure assumption / software system reliability analysis using sum-of-disjoint products / software module / transportation / decision algorithm / software variants / disjoint product / disjoint products / software modules equals / fault-tolerant software architectures / software system reliability models / software specification i.e. / fault-tolerant software architectures consisting / fault-tolerant systems / software / software version / software system reliability analysis / software faulttolerant models / software versions / classical fault-tolerant software models / software components/versions / tolerant systems / fault-tolerant software system / software modules / sum-of-disjoint-products / software architecture / software faulttolerant systems / software systems / software version increases / /
Organization
Chiang Mai University / University of Pittsburgh / Engineering Mongkut’s University of Technology Thonburi / King Mongkut’s University of Technology Thonburi / Naruemon Wattanapongsakorn Department of Computer Engineering Faculty of Engineering Mongkut / IEEE Reliability Society / The George Washington University / /
Person
NARUEMON WATTANAPONGSAKORN / /
Position
AUTHOR / assistant professor / reliability model for RB considering only sindependent faults / /
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