Force on Force Modeling with Formal Task Structures and Dynamic Geometry

This study demonstrated the application of a formal task framework, derived using the MMF methodology to structure a complex mission. It further demonstrated the integration of effects from a range of kinetic interactions, reliability failures and repair events as produced by a systems vulnerability...

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Hauptverfasser:	Bray ,Britt E, Nelson,John J, Ward,Beth S, Deitz,Paul H, Dibelka,Russell, Hunt,James, Wayne,Martin
Format:	Report
Sprache:	eng
Schlagworte:	application software Capability Analysis Computer Programming and Software computeraided design Dynamic Geometry ExtendSim failure mode and effect analysis fof(Force-on-Force) Mission and Means Framework missions MUVES operating systems Simulations systems analysis systems engineering test and evaluation vulnerability
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creator	Bray ,Britt E Nelson,John J Ward,Beth S Deitz,Paul H Dibelka,Russell Hunt,James Wayne,Martin
description	This study demonstrated the application of a formal task framework, derived using the MMF methodology to structure a complex mission. It further demonstrated the integration of effects from a range of kinetic interactions, reliability failures and repair events as produced by a systems vulnerability model (MUVES) using an Application Program Interface (API) to pass data between the contractor developed FoF model and MUVES.
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subjects	application software Capability Analysis Computer Programming and Software computeraided design Dynamic Geometry ExtendSim failure mode and effect analysis fof(Force-on-Force) Mission and Means Framework missions MUVES operating systems Simulations systems analysis systems engineering test and evaluation vulnerability
title	Force on Force Modeling with Formal Task Structures and Dynamic Geometry
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