ISE-6 Phase 2 Demo

1. ISE-6 Phase 2 Demo March 24, 2009

2. Introduction • Matt Porteus provides a brief introduction to the ISE-6 project and team and introduces Burt Gischner (approx 5 minutes) • Burt Gischner provides the ISE-6 Overview Briefing and passes the lead back to Matt Porteus (15 to 20 minutes) • Matt Porteus introduces the demo, describes the scenario,

3. Intro - Demo Scenario The Dual Band Radar (DBR) OEM receives a Government-Industry Data Exchange Program (GIDEP) alert indicating that the sole source vendor has discontinued production of the REX RF oscillator. In response to the DBR REX RF oscillator Diminishing Manufacturing Sources and Material Shortages (DMSMS) issue, the DBR OEM identifies another source for an oscillator that meets the REX functional requirements. However, the oscillator available from the new source is a Double Resonant Optical (DRO) parametric oscillator which dissipates considerably more heat than the original Single Resonant Optical (SRO) parametric oscillator. In addition, the DRO oscillator will require some minor packaging changes in order to satisfy the mechanical interface requirements of its application in the DBR REX. The packaging changes include a different mechanical envelope and different fasteners which employ 3/8“ captive hex head screws vice standard slotted, pan head screws. The alternative to the DRO oscillator is a significant redesign of the DBR REX.

4. Intro - Demo Scenario The Program Office conducts a trade study to analyze the alternative to the DRO oscillator which again is a significant redesign of the REX. Although the DRO oscillator increases the heat load of the REX, the trade study shows that the alternative of a significant REX redesign represents unacceptable schedule and cost risk to DBR production. The Program Office considers the DRO the best available solution to solving the REX RF oscillator DMSMS problem. As a result of the trade study findings the Program Office initiates a Ship Change Document (SCD). The SCD identifies the proposed DRO change including information regarding the resultant increase in REX heat load. Upon initiation of the SCD the DBR and HM&E ISEAs are notified of the proposed REX RF oscillator change.

5. As-Is Scenario – Point-to-Point Interfaces Program Office(s) Authorization, Funding OEM LSAR Collaboration Develop ECR Authorization, Funding Revised Radar Revised HM&E Data Shipyard / NAVSSES Update Design and Logistics Revised Radar Data Update Design and Logistics ISEA DB Identify Changes Program IDE Changes Mod 2 Radar NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS

6. Demo Scenario Program Office(s) Authorization, Funding OEM LSAR Collaborative Development of SCD Authorization, Funding Revised Radar S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES ISEA Revised Radar Data Update Design and Logistics AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Navy Common Source Database (Content@) Identify Changes Changes PLCS (with S1000D references) NDE-FMP NAVICP WSF CDMD-OA TDMIS LEAPS

7. Linking Design Data to Logistics Data Design Data Logistics Data … Zone/Assembly Structure LCB Structure Design Data & Products 540 Catalog Number Drawing Number Compartment Number ESWBS PRID Serial Number Vendor Part Number/CAGE ILS Data & Products … Grand Block B13 ASSY 2110 ASSY 2120 ASSY 2130 Grand Block B16 ASSY 2140 ASSY 2150 ASSY 2160 … 54100 Diagrams/ Drawings 3D Models 54120 Supportability Supply Support RCM Analyses PM/CM Records MIP/MRC APL/AEL Test Equipment Tools 54121 RIC ICN/HSC TcE LCB 541212 Object VFI/GFI 5412121 HSC RMA 54121211 Catalog RMAAA CSA FMECA SDIF Records TMIN Equip. Validation Aids Catalog Parts Components … Tech Data Manuals/Publications Compartments

8. Baseline DBR S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • DDG 1000 IDE has integrated design and logistics data for baseline • Common Source Database has S1000D data modules for baseline • LEAPS has ship design data for baseline

9. Baseline DBR S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • DDG 1000 IDE has integrated design and logistics data for baseline • Common Source Database has S1000D data modules for baseline • LEAPS has ship design data for baseline

10. Baseline: LEAPS S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • 3D graphical context for Radar and HVAC Systems • Data import (PLCS XML), potential relationship between design and logistics data • How the data is used by the Navy in Life Cycle maintenance

11. Baseline: IDE S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • This is the DDG1000 IDE implemented on Teamcenter • Data import from OEM/ISEA and Shipyard (PLCS XML) • Logistics Configuration Baseline and associated design and logistics data • Link between equipment configuration and S1000D data modules • Link from Program IDE to Content@

12. Data Scenario HVAC Sys DM 1.1 HVAC Sys TM 2 HVAC Ducts HVAC Sys Drawing1 HVAC Sys TM 1 DM 1.2 HVAC Sys Drawing2 DM 2.2 Chillers Duct 2 DM 1.1 Mod 1 Radar TM DM 1.3 Chiller 1 Mod 1 DM 1.2 DM 2.3 Chiller 2 DM 1.3 Mod 2 Mod 2 Radar TM DM 2.1 DM 2.2 Shipyard Design & IDE ISEA IDE (Radar) Duct 1 Updated Requirements

13. DBR Update: ISEA S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • Evaluate SCD design changes • Contract OEM for updated design and data modules • Review updated data modules • Update Navy system data • Export to IDE

14. DBR Update: IDE Update S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • Import updated DBR data • LCB data updated

15. DBR Update: HVAC design impact S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • The HM&E ISEA evaluates the SCD and notes the increased heat load that would result from the DRO. • AC Unit design changed to account for additional cooling requirements - higher cooling capacity compressor • HVAC system modified • Updated equipment information imported into Program IDE from Shipyard using PLCS XML

16. DBR Update: HVAC Logistics Impact S1000D Revised HM&E Data Update Design and Logistics Shipyard / NAVSSES Revised Radar Data Update Design and Logistics ISEA AP 239 + S1000D AP 239 + S1000D LSAR Program IDE Identify Changes Changes AP 239 + S1000D AP 239 + S1000D NDE-FMP NAVICP WSF CDMD-OA TDMIS Navy Common Source Database (Content@) LEAPS • Need to identify which S1000D data modules must be updated • Candidate S1000D data modules requiring change are identified • Query IDE based on HSC for changed equipment in PLCS • Candidate S1000D data modules are reviewed and updated in Navy CSDB

17. Summary • Enables Virtual Navy Enterprise • Automated identification of change impacts • Reduce costs to evaluate changes • Support cost benefit analysis, design trade studies, etc. • Impact of design or logistics changes • Exchange of integrated design and logistics product data • Between Design and Logistics • Between ISEA, NAVSEA 05, Shipyards, and OEMs • Throughout full life cycle (currently only in acquisition) • Standardized data exchange formats • Neutral format IDE data • Improved quality and reduced cost through standardized schema and automated validation/exchange • Enable data reuse

18. Backup

19. Demo Script • Baseline System Delivered to the Navy • Pete Lazo describes the scenario data for the baseline system using LEAPS (10 minutes) • 3D graphical context for Radar and HVAC Systems • Data import (PLCS XML), relationship between design and logistics data • How the data is used by the Navy in Life Cycle maintenance • Mike Olson describes the baseline system using Teamcenter Enterprise (10 minutes) • Data import from OEM/ISEA and Shipyard (PLCS XML) • Logistics Configuration Baseline and associated design and logistics data • Link between equipment configuration and S1000D data modules • Link from Program IDE to Content@

20. Demo Script • Ship Change Document (SCD) initiated to update REX RF Oscillator • Ted Briggs describes the design change to the REX RF Oscillator and its affect on logistics data (15 minutes) • Show changes to equipment configuration data and S1000D data modules • Discuss adding Navy specific information to OEM data (such as compartment numbers, APLs or HSCs) • Show data and linkage to data modules • Review updated baseline (using IETPS Viewer) from OEM (PLCS XML file including links to S1000D data modules) • Discuss load of S1000D data modules into Navy CSDB • Data export to Program IDE using PLCS XML

21. Demo Script • Ship Change Document (SCD) initiated to update REX RF Oscillator (cont’d) • Mike Olson describes the affect of the REX RF Oscillator change on the HM&E HVAC equipment and logistics data using Teamcenter and Content@ (25 minutes) • Import DBR PLCS file and show changes to LCB.(TBD) • Discuss impact of radar changes on AC system • AC Unit design change to account for additional cooling requirements - higher cooling capacity compressor • Updated equipment information imported into Program IDE from Shipyard using PLCS XML • Candidate S1000D data modules requiring change are identified (list) • Query IDE based on HSC for changed equipment in PLCS • Candidate S1000D data modules are reviewed and updated in Navy CSDB • Create work package in Content@ • Discuss using PLCS file to transfer modified system configuration to LEAPS

22. Demo Script • Matt Porteus provides a brief summary, emphasizing the potential importance of this type of exchange to automate and improve identification and management of changes in the Navy enterprise. (approx 5 minutes)

23. Presentation Template • Role in Scenario • Name and short description of system being used to demonstrate activities • Description of activities being demonstrated • Description of activity inputs and outputs (data, formats, and sender/receiver)

24. Demo Scenario - Radar The DBR ISEA evaluates the SCD and notes that tech manual changes would result from replacing the SRO oscillator with the DRO oscillator. However, the DBR ISEA also notes that the SCD does not specify the exact data modules impacted in the DBR tech manual. Realizing that there is a DBR tech manual change under development as a result of a previous SCD, the DBR ISEA sees an immediate need to quickly understand the exact impact of the DRO oscillator SCD to the DBR tech manual. The DBR ISEA sees an opportunity to combine the tech manual changes resulting from the DRO SCD with the change under development. Using the IDE, the DBR ISEA runs a query of the DBR tech manual against the REX RF oscillator Hierarchical Structure Code (HSC). The query returns the list of DBR tech manual S1000D data modules related to the REX RF oscillator. The list is compared to the changes under development to determine the impact. The S1000D data modules affected by the REX RF oscillator change are updated by the OEM to reflect the change and submitted to the ISEA for review and approval. The approved S1000D data modules are loaded to the Navy Common Source Database (CSDB) and the revised technical manual is published for distribution.

25. Demo Scenario – HM&E The HM&E ISEA evaluates the SCD and notes the increased heat load that would result from the DRO. Using the IDE, the HM&E ISEA runs a query of cooling equipment using the space number in which the REX is housed. The query returns the list of cooling equipment for the space in which the REX is housed. The cooling equipment is evaluated for the impact of the change and it is determined that a compressor with higher cooling capacity is required. The AC Unit is redesigned to include a higher capacity compressor. Based on the new design, the technical manuals need to be updated. Using the IDE, the HM&E ISEA runs a query of the AC Unit tech manuals against the compressor Hierarchical Structure Code (HSC). The query returns the list of AC Unit tech manual S1000D data modules related to the compressor. The Navy Common Source Database (CSDB), where the data modules are maintained, is queried using the list of S1000D data modules related to the compressor. The data modules are evaluated by the technical writer and the appropriate data modules are updated to reflect the change. The new technical manual is published for distribution.