In coming years embedded systems which are distributed, non-stop and "mission and safety critical" (MASC) are likely to assume increasing importance. The construction, operation and maintenance of this class of system presents a unique blend of problems which many traditional tools and techniques, targeted to just one problem area, cannot currently address. The paper provides an overview of a promising, model-based framework for supporting such systems that has been developed as part of NASA's MISSION project. Based on well-established research advances in computing, the MISSION approach provides a domain-specific, life-cycle support framework encompassing three separate environments: host, integration and target. Although the individual elements of the framework are not all new, their synergistic packaging within the MISSION project is believed to be unique. The paper focuses upon the systems-level support for applications executing in the target environment.
Supporting the evolution of distributed, non-stop, mission and safety critical systems
Entwicklungsunterstützung von verteilten, non-stop auftrags- und sicherheitskritischen (mission and safety critical, MASC) Systemen
Informatica, Slovenia ; 19 , 1 ; 7-24
1995
18 Seiten, 45 Quellen
Aufsatz (Zeitschrift)
Englisch
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