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Software quality / Fault tolerance / Engineering / Safety / Redundancy / Fault-tolerant system / Reliability engineering / Fly-by-wire / Fault-tolerant design / Fault-tolerant computer systems / Systems engineering / Computing


Document Date: 2008-11-18 04:33:06

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City

Pasadena / Paris / /

Company

Airborne Systems / Airbus / AIRBUS France / Fault-Tolerant Software / Airborne Electronic Hardware / Civil Airborne Systems / Boeing / Being FCS / /

Country

France / United States / /

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Event

Product Issues / /

Facility

Building Fault / /

IndustryTerm

software system / dissimilar computing lanes / information processing / software variants / distributed processing / digital communication technologies / software redundancy methods / software implementations / system processing / digital electrical flight control systems / manufacturing error / cost hardware / cheapest product / aircraft systems / comparison algorithm / redundant hardware / fault tolerant systems / software faults / fault tolerance hardware / fault tolerance software / self-checking software component / software resources / safety critical systems / avionics systems / online publication / hardware / aircraft flight control systems / flight control systems / software redundancy / /

Organization

Federal Aviation Administration / Information Society / Toulouse / Congress / Federal Communications Commission / Society of Automotive Engineers / Joint Aviation Authority / /

Person

Université de Toulouse / Paul J. Prisazunk / Roche / /

Position

Colonel / /

Product

Airbus A380 / A340 / Airbus A310 / A330 / Airbus A320 / piece / module / situations / components / /

ProgrammingLanguage

FL / /

PublishedMedium

Aspen / IEEE Transactions on Software Engineering / Complex Systems / /

Technology

Radiation / digital communication technologies / comparison algorithm / Fly-By-Wire technologies / /

SocialTag