Enabling the Virtual Navy Enterprise
2009
The Virtual Navy Enterprise encompasses those Navy organizations, shipbuilders, integrators, and suppliers necessary to provide life cycle support for the fleet. The efficiency of this virtual enterprise is typically hampered by lack of interoperability and effective data exchange. This is particularly true for activities, such as ship alterations, that involve several different organizations. The ISE-6 team worked with Naval Surface Warfare Center (NSWC) Port Hueneme Division to develop a technical approach that fosters interoperability across the Virtual Navy Enterprise. This extends the ISE-6 Phase 1 work with the Product Life Cycle Support (PLCS) standard to include exchange of technical publication data using the S1000D international standard, which allows exchange of design and logistics data between in-service engineering agents (ISEAs), Naval Sea Systems Command (NAVSEA), shipyards, and original equipment manufacturers (OEMs). A key result was the ability to automate identification of change impacts to technical publications, reducing the costs to evaluate changes and supporting cost-benefit analysis and design trade studies. The ISE-6 team also worked with the US Navy S1000D Working Group and DDG 1000 Technical Data Working Group to help formulate S1 000D data module naming rules, metadata use for efficient searching, and business rule definition. The ISE-6 team conducted a demonstration of this approach for a Ship Alteration resulting from a vendor change to the radar oscillator. The ISEA updates the radar product data and technical publication to reflect this change. An Engineering Change is coordinated between NSWC Carderock Division - Ship Systems Engineering Station (SSES) Philadelphia and the shipyard to implement the Ship Change Document (SCD). The changes are passed, via PLCS and S1000D, to the shipyard Integrated Data Environments (IDE) resulting in an associated change to the heating, ventilation, and air-conditioning (HVAC) system to accommodate the increased heat load. The shipyard develops a design change. The S1000D data modules affected by the AC unit change are identified by the shipyard and updated to reflect the change.
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