Applying Publish-subscribe To Communications-on-the-Move Node Control

Modern military satellite communications terminals have typically been built as multiprocessor systems. Because of increasing pressure for reuse and modularity, current programs have been encouraged to consider the use of component middleware. While Common Object Request Broker Architecture is the m...

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Veröffentlicht in:	The Lincoln Laboratory journal 2007-01, Vol.16 (2), p.413-430
Hauptverfasser:	Mitchell, J Darby, Siegel, Marc L, Schiefelbein, M Curran F, Babikyan, Armen P
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Sprache:	eng
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creator	Mitchell, J Darby Siegel, Marc L Schiefelbein, M Curran F Babikyan, Armen P
description	Modern military satellite communications terminals have typically been built as multiprocessor systems. Because of increasing pressure for reuse and modularity, current programs have been encouraged to consider the use of component middleware. While Common Object Request Broker Architecture is the most mature middleware standard available, its invocation semantics present considerable challenges for the development of such systems. Through reasoning about quality attributes, we found that a real-time publish-subscribe middleware reduces coupling, improves composability, and reduces the risk of architectural mismatch, deadlock, and integration problems compared to an invocation-based system. In building a communications-on-the-move (COTM) node, we found that this type of middleware, which exemplifies an implicit-invocation architectural style, promotes ease of system evolution and an incremental integration approach.
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title	Applying Publish-subscribe To Communications-on-the-Move Node Control
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