Developing a scalable modeling architecture for studying survivability technologies

Syed Mohammad; Paul Bounker; James Mason; Jason Brister; Dan Shady; David Tucker

doi:10.1117/12.666086

22 May 2006 Developing a scalable modeling architecture for studying survivability technologies

Syed Mohammad, Paul Bounker, James Mason, Jason Brister, Dan Shady, David Tucker

Proceedings Volume 6228, Modeling and Simulation for Military Applications; 622809 (2006) https://doi.org/10.1117/12.666086
Event: Defense and Security Symposium, 2006, Orlando (Kissimmee), Florida, United States

Abstract

To facilitate interoperability of models in a scalable environment, and provide a relevant virtual environment in which Survivability technologies can be evaluated, the US Army Research Development and Engineering Command (RDECOM) Modeling Architecture for Technology Research and Experimentation (MATREX) Science and Technology Objective (STO) program has initiated the Survivability Thread which will seek to address some of the many technical and programmatic challenges associated with the effort. In coordination with different Thread customers, such as the Survivability branches of various Army labs, a collaborative group has been formed to define the requirements for the simulation environment that would in turn provide them a value-added tool for assessing models and gauge system-level performance relevant to Future Combat Systems (FCS) and the Survivability requirements of other burgeoning programs. An initial set of customer requirements has been generated in coordination with the RDECOM Survivability IPT lead, through the Survivability Technology Area at RDECOM Tank-automotive Research Development and Engineering Center (TARDEC, Warren, MI). The results of this project are aimed at a culminating experiment and demonstration scheduled for September, 2006, which will include a multitude of components from within RDECOM and provide the framework for future experiments to support Survivability research. This paper details the components with which the MATREX Survivability Thread was created and executed, and provides insight into the capabilities currently demanded by the Survivability faculty within RDECOM.

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Syed Mohammad, Paul Bounker, James Mason, Jason Brister, Dan Shady, and David Tucker "Developing a scalable modeling architecture for studying survivability technologies", Proc. SPIE 6228, Modeling and Simulation for Military Applications, 622809 (22 May 2006); https://doi.org/10.1117/12.666086

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KEYWORDS

Computed tomography

Systems modeling

Data modeling

Missiles

Electro optical modeling

Dismounted soldiers

Performance modeling

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