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INCOSE Model Based Systems Engineering Initiative

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INCOSE Model Based Systems Engineering Initiative

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    1. INCOSE Model Based Systems Engineering Initiative 19 Feb 2009 Michael Dee INCOSE MBSE Challenge Team Lead INCOSE Architectures Working Group INCOSE MDSD Working Group

    2. 2 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE

    3. 3 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE DEFINITIONS Complexity: No single person can comprehend and manage the whole system Systems Engineering: Decision-making processes associated with defining, developing and fielding complex systems Architecture: Design intent with respect to a viewpoint Logical Architecture Physical Architecture Technical Architecture

    4. 4 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE WHAT IS A MODEL? An abstraction of reality designed to convey information Defined with respect to some aspect of structure or behavior Necessarily incomplete and approximate A model of the system is NOT the system CLASSES OF MODELS Descriptive Model: Approximation of what is Prescriptive Model: Approximation of what is intended be Predictive Model: Approximation of emergent behavior It takes many models to adequately describe a complex system.

    5. 5 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE THE 4 PILLARS OF SYSTEMS ENGINEERING Requirements: VOC > Use Cases / MOEs / MOPs Architecture (Structure): Configuration / Interfaces Logical, Physical, and Technological Domains System Context Behavior: Process ( as designed) Emergence: Intended vs. Unintended Behaviors from Predictive Model Parametrics: Formal relationships and constraints Tied to architecture and/or Processes Variables for trades and optimization

    6. 6 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE WHATS DIFFERENT ABOUT MODEL BASED SE? Havent we always used models to specify our systems? Text based documents are models Drawings and diagrams are models Model Based implies: Only one definition can exist for any element of the model Unique representation in model repository Any number of presentations are possible Model is integrated Relationships between elements are themselves model elements Modeling language is based upon a generalized Metamodel

    7. 7 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE TRADITIONAL (DOCUMENT CENTRIC) SE Using 4 Pillars of Systems Engineering

    8. 8 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE MODEL BASED SE: INTEGRATED

    9. 9 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE 4 Pillars Integrated Models via SysML (Ron Williamson)

    10. 10 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE AN ANALOGY TO MBSE: MECHANICAL DESIGN Mechanical Design Models Then: 2D or 3D wireframe Now: Solids Modeling Properties Then: Assigned in writing in blocks or notes or instructions Now: Build into model Changes: Then: Must work through every drawing sheet affected by the modified component Now: Change the solid model, automatically reflect it throughout

    11. 11 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE COMPARE TRADITIONAL TO MODEL BASED SE Weaknesses of Traditional Approach: Model and Documentation are Separate Entities (De-Linked) Complex Organizational Processes Strength of Traditional Approach: Comfort Zone; Mature Processes Theoretical Strength of MBSE Approach: The Model is the Documentation Common use of OOD/OOA Possible Weaknesses of MBSE: Requires significant training and infrastructure management Risk (real or perceived) of being the first Little experience with the method outside of technical domains This is why we are executing the MBSE Initiative

    12. 12 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE THEORETICAL VALUE OF MBSE ENHANCED COMMUNICATIONS Shared Understanding / Integrated Views REDUCED DEVELOPMENT RISK Faster Requirements Cycle / Better Cost Estimates IMPROVED QUALITY Concise Requirements / Traceability / Configuration Control INCREASED PRODUCTIVITY Faster Analysis of Design Changes / Reduced Errors / Reduced Effort ENHANCED KNOWLEDGE TRANSFER Standard Information Formats

    13. 13 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE PURPOSE OF THE MBSE INITIATIVE Evaluate the methodology & languages (SysML, UML, etc.) Identify areas for improvement Share the knowledge across the SE community Promote the methodology if appropriate SOURCE OF THE MBSE INITIATIVE: Major initiative of INCOSE INCOSE Model Driven System Design (MDSD) Working Group INCOSE Architectures Working Group INCOSE Requirements Working Group

    14. 14 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE IMPLEMENTATION OF MBSE Methodology: Object Oriented Systems Engineering Method (OOSEM) Object Oriented Design (common practice) Languages: UML SysML Others Tools: Various and Sundry

    15. 15 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE OVERVIEW OF THE MBSE INITIATIVE OVERVIEW OF THE MBSE INITIATIVE

    16. 16 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE INTRODUCTION TO THE MBSE INITIATIVE MBSE VISION: MATURITY GROWTH

    17. 17 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE OVERVIEW OF THE MBSE INITIATIVE ORGANIZATION OF THE MBSE INITIATIVE TECHNICAL ACTIVITIES: Projects that investigate and develop particular technical aspects of modeling, regardless of application domain. Ex: predictive modeling / agent based modeling / data interchange CHALLENGE TEAMS: Independent projects that investigate and demonstrate the use of MBSE across application domains. Ex: equipment / earth observation / enterprise design

    18. 18 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE OVERVIEW OF THE MBSE INITIATIVE TECHNICAL ACTIVITIES

    19. 19 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE TECHNICAL ACTIVITIES MBSE TECHNICAL ACTIVITY TEAMS OVERVIEW Research: Complex Adaptive Systems; Agent Based Models; Languages Outreach, Education, Training: Expand Knowledge Base Tools and Technology: Evaluate Tools; Interoperability Process, Practices, and Methods: Config Mgt; Testing Supporting Standards: AP233 / SysML / Process Modeling Stds

    20. 20 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES MBSE Research Ken Lloyd, Watt Systems (kalloyd@wattsystems.com) Activities: MBSE of Complex, Adaptive, and Stochastic Systems Computational Emergence Ontologies Challenges: Use of Petri-Nets as a modeling formalism Agent-based predictive models for highly complex adaptive systems Self-modifying models Human behavioral modeling; human / systems integration Ant colony optimization / genetic algorithms Swarm theory (local rules, global effects)

    21. 21 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES

    22. 22 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES

    23. 23 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Outreach, Education, and Training

    24. 24 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Tools and Technology: Model Management Jozsef Bedocs (bedocs@gdls.com)

    25. 25 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Tools and Technology: Interoperability

    26. 26 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Tools and Technology: Modeling & Simulation Interoperability

    27. 27 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Tools and Technology: Model Based Testing

    28. 28 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Processes, Practices, and Methods Jeff A. Estefan (Jet Propulsion Laboratory) Jeffrey.A.Estefan@jpl.nasa.gov Purpose: Provide user community with information about various processes, practices, and methods. What works? What doesnt? Compared to what? Activities: User surveys, interviews, comparisons Characterize role of life cycle models (project, acquisition, and systems engineering) Other References: Estefan, Jeff A., Survey of Model-Based Systems Engineering (MBSE) Methodologies, Rev. A, INCOSE MBSE Focus Group white paper, International Council on Systems Engineering, May 25, 2007 (http://omgsysml.org/MBSE_Methodology_Survey_RevA.pdf)

    29. 29 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Supporting Standards Phil Spiby, EuroStep Foundation (phil.spiby@eurostep.com)

    30. 30 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE OVERVIEW OF THE MBSE INITIATIVE CHALLENGE TEAMS

    31. 31 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE CHALLENGE TEAMS CHALLENGE DEMONSTRATION PROJECTS INCOSE Enterprise Model: Mike Dee, Finger Lakes Mechatronics Model: Dr. Russell Peak, Georgia Tech GEOSS Model: Larry McGovern, Northrop Grumman Avionics / SW Integration: Leon Corley Space Systems: Chris Delp, Jet Propulsion Lab Intelligent Enterprises: Jack Ring, Independent Consultant Urban Transportation: Dr. Larry Head, University of Arizona Highway Maintenance: open Telescope Modeling: Robert Karban, European Organization for Astronomy Research

    32. 32 INCOSE MODOpeEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES INCOSE ENTERPRISE Mike Dee (michael.dee@incose.org) OBJECTIVES Create enterprise model of INCOSE Enterprise Framework, implemented in SysML Define Goals / Requirements Layer (Use Cases and Context) Concept Layer (ConOps) Process Layer (Operating Procedures) Information Layer (Knowledge / Data) Applications Layer (Methods & Tools) Infrastructure Layer (Underlying Assets) DELIVERABLES Operating model; self documented

    33. 33 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES MECHATRONICS INTEGRATION Russel Peak, Georgia Tech (Russell.Peak@gatech.edu) OBJECTIVES Demonstrate use of SysML for expressing mechatronic system design. Integrate via SysML the simulation work done in various other tools. Build Integrated System Models in SysML (pre-processing). See next slide

    34. 34 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES

    35. 35 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Global Earth Observation System of Systems Architecture Development Using Viewpoint Specifications Larry McGovern, Northrop (lawrence.mcgovern@ngc.com)

    36. 36 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES AVIONICS & SOFTWARE INTEGRATION Leon Corley

    37. 37 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES SPACE SYSTEMS-FIRESAT Christopher L. Delp, Jet Propulsion Laboratory Chris.Delp@jpl.nasa.gov OBJECTIVES: Evaluate MBSE (SysML, etc.) as an alternative to traditional SE methods. Determine how much system documentation can be formalized within SysML, and what cannot. Determine if MBSE is better than Traditional SE methods. COMMENTS: Cooperation across companies and organizations. Significant software integration.

    38. 38 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Intelligent Enterprises Jack Ring (jring@amug.org)

    39. 39 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES Intelligent Enterprises (Continued)

    40. 40 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES URBAN TRANSPORTATION Larry Head, University of Arizona (larry@sie.arizona.edu)

    41. 41 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES HIGHWAY MAINTENANCE Florida Dept of Transportation / University of Central Florida OBJECTIVES: Further knowledge of modeling and simulation Education projects for graduate and undergraduate students Research and application for industry Sandbox for prototyping and testing Optimize maintenance program effectiveness Tie descriptive models to predictive models. Currently no activity

    42. 42 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE TECHNICAL ACTIVITIES SPACE TELESCOPE DESIGN Robert Karban, European Agency for Astronomy Research (rkarban@eso.org)

    43. 43 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE WRAP-UP SUMMARY Purpose of the MBSE Initiative: Advance our knowledge of the method and the tools What works? What doesnt Multiple aspects of modeling Projects: Activity Teams: Particular Technology Aspect Challenge Teams: Demonstration Projects Participation / Real Information: Contact the team leader

    44. 44 INCOSE MODEL BASED SYSEMS ENGINEERING INITIATIVE MBSE INITIATIVE WRAP-UP COMMENTS ON MBSE BARRIERS TO IMPLEMENTATION: Lack of general knowledge about integrated modeling Lack of experience in user community Unforeseen benefits of integrated model THINGS TO THINK ABOUT: Investment requirements Participants must have access to software Training in modeling Learning to share Challenge Teams: Demonstration Projects COST / BENEFIT: ROI may take a while. Like migration to solid modeling

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