Implementation of Affordable Systems Optimization Process
(ASOP) on the NII -

                    Requirements Overview
                    and Recommendations
Presentation Agenda
 Introduction
 Importance of ASOP Implementation on the NII
 Recommended Implementation Framework
 Proposed Technology Plan for Developing Testbed
 Conclusions
Requirements Definition Team
¥    General Electric - Corporate Research & Development
¥    General Motors - Research & Development Center
¥    McDonnell Douglas
¥    Northrop-Grumman
¥    Rockwell - North American Aircraft Division
¥    NPAC - Syracuse University
¥    Georgia Institute of Technology
Requirements Definition Process
¥    Workshops (2) Involving Industry, Government, and
 University Participants
¥    Industry, Government, and University Site Visits
¥    Draft Requirements Document and Technology Development
Plan Provided
Key Briefing Points
¥    ASOP is Innovative Implementation of IPPD
Framework and Technology Plan Presented for Implementing
ASOP on the NII Provides Roadmap for Significantly Impacting
Affordability of Aeronautics Products
¥    Proposed Testbed Provides for Joint NASA/Industry
 Technology Development
¥    Proposed Technology Plan Leverages NASA Base Technology
Program and Emerging NII Technology
Presentation Agenda
 Introduction
 Importance of ASOP Implementation on the NII
 Recommended Implementation Framework
 Proposed Technology Plan for Developing Testbed
 Conclusions
Cost is the Major Technology Challenge
COMMERCIAL AIRCRAFT COST REDUCTIONS ARE TARGETED AT 25% NEAR
                            TERM
    THREE OF FIVE MILITARY FIXED-WING AIRCRAFT  FAMILIES
  IDENTIFY REDUCING COSTS BY 20-40% (BY 2015) AS A PRIORITY
                   TECHNOLOGY DEVELOPMENT
Life Cycle Cost is a Design Variable in ASOP
NII Enhances ASOP in a Multi-Organization Activity
Industrial/Academic/Government Consensus is ASOP Basis
Testbed Development is a NASA Role in ASOP
ASOP Introduces Aerospace Paradigm Shifts
ASOP Criticality to Aerospace Industry and NASA
Presentation Agenda
 Introduction
 Importance of ASOP Implementation on the NII
 Recommended Implementation Framework
 Proposed Technology Plan for Developing Testbed
 Conclusions
1.0 ASOP Design Environment
 Eight requisite subsystems comprise the ASOP design
  environment
1.1 Design Engine
1.2 Visualization Toolkit
1.3 Geometry Toolkit
1.4 Analysis Modeling Toolkit
1.5 Cost Model Toolkit
1.6 Process Modeling Toolkit
1.7 Simulation Engine
1.8 Optimization Engine
2.0  ASOP Object Backplane - Integration Services to Users
¥    Customizes general NII technologies to ASOP specific
 requirements
¥    Provides the object, wrapper and agent services to
share data in the ASOP design environment
¥    Conforms to applicable protocol, ontological and  data
standards
¥    Defines management, retrieval, and control functions
for heterogeneous data and methods distribution
¥    Interfaces to Team Infrastructures
2.1-2.5 ASOP Object Backplane Leverages NII
¥    Collaboration Services - support distributed, virtual
 collocation of aeronautics development teams
¥    Configuration Control Services - provide configuration
management for complex product data relationships
¥    Metacomputing Services - facilitate effective use of
powerful, distributed computing services
¥    Security and Access Services - safeguard information
and ensure validity of access to ASOP capabilities
¥    Object and Data Service - implement for data
transformations and resource integration
3.0 and 4.0 Team Infrastructure
¥    Provides Local Infrastructure for Team
 Ð    desktop devices and access to network
Ð    based on organization business rules and culture
¥    Required for participation in ASOP
 Ð    minimum requirements set for joining team
Ð    extension to current environments
¥    Supports emulation of full NII capabilities
 Ð    leverage existing local networks to support
  optimization of aeronautics products
Ð    demonstrate ASOP benefits to existing environment
Ð    allow phased implementation of new technologies
5.0 and 6.0 NII Infrastructure
ASOP Framework Supports Technology Development
¥    Consensus framework defined for ASOP technology
 development
¥    Leverages current and future NII capabilities
¥    Facilitates process improvement and distributed IPPD
team development efforts
¥    Permits phased development and use to support NASA /
Industry needs
Presentation Agenda
Four Phase Demonstration of ASOP Testbed on NII
Phase 1 ASOP  Requirements Defined
Phase 2 Wing Demonstration Completed in Six Months
Rockwell Specific ASOP Implementation - Phase 2
Market Parameter LCC Traded Against System Performance
NII Infrastructure Idealized for Phase 2 Wing Demonstration