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6/16/2008 An Introduction to DSI and our Products Eric Gould December, 2010.

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1 6/16/2008 An Introduction to DSI and our Products Eric Gould December, 2010

2 MIL-HDBK-1814 Integrated Diagnostics (1991) MIL-STD-2165 Testability (1985) IEEE 1522 Testability & Diagnosability (2004) MIL-M-24100B Functionally-Oriented Maintenance Manuals (1974) DSI International 36 years of diagnostic engineering Logic Modeling LOGMOD (1978) STAT (1988) eXpress (1998) STAGE (2008)

3 DSI’s products eXpress (1998) eXpress Run-Time Authoring Tool (2010) STAGE (2008)

4 DSI is the world’s leading provider of diagnostic engineering software Major CompaniesGovernment BAE SystemsU.S. Army BoeingU.S. Navy General AtomicsU.S. Postal Service General Electric General DynamicsUniversities HoneywellNorth Carolina A&T Lockheed MartinAlabama A&M Northrop Grumman Raytheon over 200 licenses sold Sikorsky within the United States Current U.S. Customers

5 DSI is the world’s leading provider of diagnostic engineering software EuropeAsia EADS(European Union)Aviation Technologies (China) Eurocopter (France)Dongfanghong Aircraft (China) MBDA (France)Ishikawajima HI (Japan) MBDA (U.K.)Kingswell Enterprises (China) Nexter / GIAT (France) Mitsubishi HI (Japan) Sagem (France)Shiji Electronics (China) THALES (France)Tianwei Industry (China) Xi’an Industries (China) Yuntong Technology (China) International Customers

6 New Evolution Locomotive Crusader Self-Propelled Howitzer Space Operations Vehicle (SOV) X-33 VentureStar AIM-9X Evolved Sidewinder Missile 2 nd Gen RLV Future Combat Systems Joint Strike Fighter Eurofighter TSAT Satellites Fire Scout UAV Comanche Helicopter CVN-76 Nimitz-Class Supercarrier DSI has extensive experience on major programs

7 Some current programs using eXpress JLENS (Raytheon) CH-53K (Sikorsky) Predator – MSTS (Raytheon) JASSM (Lockheed) GCV (Boeing) X-Band Radar (Raytheon) Standard Missile (Raytheon) CVN-21 – EMALS/AAG (General Atomics)

8 Four main goals of diagnostic engineering © 2010 DSI International Availability Cost of Ownership Mission Success Safety

9 Subsidiary benefits of diagnostic engineering © 2010 DSI International Availability Cost of Ownership Mission Success Safety Improved Fault Detection Reduced False Alarms Reduced System/Mission Aborts Effective Isolation to Optimum Repair Level Unique Isolation of Critical Failures Reduced False Removals Lower Maintenance Costs FMECA/Critical Fault Analysis Risk Priority Analysis Lower MTTI / MTTR Improved MTBF

10 Effective Isolation to Optimum Repair Level Unique Isolation of Critical Failures Improved Fault Detection Contracted diagnostic requirements © 2010 DSI InternationalAvailability Cost of Ownership Mission Success Safety

11 Effective Isolation to Optimum Repair Level Unique Isolation of Critical Failures Improved Fault Detection © 2010 DSI InternationalAvailability Cost of Ownership Mission Success Safety The Challenge: How to use FD/FI requirements to achieve diagnostic goals

12 The benefits of Integrated System Diagnostic Development (ISDD) Reduce and Manage Risk  Reduce and Manage Risk Reduce Program Costs  Reduce Program Costs Provide Compliant Design  Provide Compliant Design Submit Winning Proposals  Submit Winning Proposals © 2010 DSI International

13 ISDD encompasses all aspects of diagnostic engineering Requirements Derivation  Requirements Derivation RequirementsFlow-down  Requirements Flow-down DesignDevelopment  Design Development TestPointEnhancement  Test Point Enhancement Design & Diagnostic Optimization  Design & Diagnostic Optimization Prognostic & Reasoner Development  Prognostic & Reasoner Development Embedded Systems Integration  Embedded Systems Integration Life Cycle Support  Life Cycle Support Requirements Derivation  Requirements Derivation RequirementsFlow-down  Requirements Flow-down DesignDevelopment  Design Development TestPointEnhancement  Test Point Enhancement Design & Diagnostic Optimization  Design & Diagnostic Optimization Prognostic & Reasoner Development  Prognostic & Reasoner Development Embedded Systems Integration  Embedded Systems Integration Life Cycle Support  Life Cycle Support © 2010 DSI International

14 Addresses All Aspects of Diagnostic Design  Addresses All Aspects of Diagnostic Design Integrates Logistics with Design  Integrates Logistics with Design Facilitates Collaboration & Integration  Facilitates Collaboration & Integration Unifies Diagnostic Engineering Practices  Unifies Diagnostic Engineering Practices Advantages of ISDD using eXpress © 2010 DSI International

15 STAGE The ISDD process System Engineering Test and Measurement Diagnostic Engineering Maintenance Engineering System Design Test Procedures Embedded Diagnostics Maintainability Analysis Reliability Analysis & FMECA Reliability Engineering © 2010 DSI International Module Design Engineering Prognostics Maintenance Schedules Trouble- Shooting Routines FMECA Plus eXpress BIT/BITE

16 Diagnostic Engineering Maintenance Engineering Reliability Engineering Prognostics CBM Diagnostics CM Scheduled Maint. RCM eXpress FMECA+ STAGE © 2010 DSI International

17 Greater Stratification  Greater Stratification Fewer Catch-All Calculations  Fewer Catch-All Calculations Prioritization of Requirements  Prioritization of Requirements  Requirements tied to performance Requirements that cross disciplinary boundaries  Requirements that cross disciplinary boundaries Requirement Improvements © 2010 DSI International

18 STAGE Compare & Critique Module Maintenance Resource Module STAGE Resource Mgmt Module Commercial Logistics Planning Tool eXpress FMECA Plus Module Commercial Run-Time or Diagnostic Executive (Dynamic Diagnostics) The DSI Maintenance Reasoner DSI Workbench Commercial Web Browser (eXpress Java Applet) eXpress Run-Time Authoring Tool Design Data Import Manager Commercial Engineering Data (XML, Spreadsheet, DB, Visio) Diagnostic Markup Editor Commercial Diagnostic Data (DiagML, ATML, AI-ESTATE, etc.) Commercial IETM, Diagnostic Executive, Custom Applications, Written Documentation (Static Diagnostics) STAGE eXpress Maintainability Module Other Industry Formats X-ExdML DiagML Proprietary DSI Formats Tight Integration Interoperability The ISDD Tool Suite eXpress © 2010 DSI International. This slide contains information proprietary to DSI International. Unauthorized use or distribution is prohibited.

19 eXpress X-ExdML Design Topology Model Appearance Test Definitions FMECA Data Attribute Values COM Design Topology Model Appearance FMECA Data Attribute Values RTF Test Definitions FMECA Data Attribute Values Analysis Results DiagML Static Diagnostics Model Appearance Test Definitions Attribute Values Design Topology Model Appearance Test Definitions FMECA Data Attribute Values Analysis Results MS-Excel Symbol Graphics Model Graphics Diagnostic Graphics XML Reports MS-Excel Reports MS-Word Reports Adobe PDF Reports eXpress interoperability © 2010 DSI International

20 STAGE, Act I Failure, Diagnosis & Replacement Prognosis / Maintenance © 2010 DSI International. This slide contains information proprietary to DSI International. Unauthorized use or distribution is prohibited. STAGE, Act II Phases NRE Costs Logistics Planning STAGE, Act III Reconfiguration Redundancy Mission Success STAGE, Act IV Resource Management Supply Chain Modeling STAGE Roadmap

21 Prognostics Requirements A typical prognostics requirement has four components: Scope:a set of failures for which prognosis is desired Coverage:the percentage of failures in the scope that must be prognosed Horizon:the time before failure that prognosis must occur Accuracy:the desired confidence/correctness of the prognosis

22 © 2010 DSI International “Prognostics shall predict at least 70% (with a 95% goal) of the mission critical failures from 480 hours to 96 hours in advance of occurrence with 80% probability.” Scope:Mission Critical Failures Coverage:70% − 95% Horizon:480 + 96 hours Accuracy:80% Prognostics Requirements: Example 1

23 © 2010 DSI International “[Prognostics] will accurately predict pending critical system failures…that might occur in a 72 hour mission, early enough to allow corrective action before the unit begins the mission. Prognostics will provide coverage for 45% SA and 35% EFF at a 90% accuracy (threshold) 70% SA and 65% EFF at a 99% accuracy rate (objective).” Scope:System Aborts Coverage:45% − 70% Horizon:72 hours + CA time Accuracy:90% − 99% Scope:Essential Fctn Failures Coverage:35% − 65% Horizon:72 hours + CA time Accuracy:90% − 99% Prognostics Requirements: Example 2

24 Prognostics & Diagnostic Effectiveness There are two ways in which prognostics can be considered during diagnostic analysis: Prognosed failures can be included (analysis reflects the performance of both prognostics and diagnostics) Prognosed failures can be excluded (analysis reflects the diagnostic performance for non-prognosed failures only)

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