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Emerging / Existing Standards in the System Modeling and Simulation (SMS) Environment

This roundtable discussion at NAFEMS Americas 2016 explores the roadmap for defining a new culture in the SMS environment, including the establishment of a central hub and the publication of a T&D online. The SMSWG aims to involve the whole community in structuring the SMS space, defining criteria for standards, and creating a comprehensive virtual engineering environment. The proposed definition of SMS emphasizes the ability to predict, simulate, and optimize product behavior and performance.

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Emerging / Existing Standards in the System Modeling and Simulation (SMS) Environment

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  1. Emerging / Existing Standards in the System Modeling and Simulation (SMS) Environment SMS Roundtable Discussion NAFEMS Americas 2016, Seattle, WA, USA June 7-9, 2016

  2. Roadmap: High Level* Defining a new Culture The shifting towards a comprehensive advanced virtual engineering environment Finalize SMS Environment (Definition) New online portal to create central hub for SMS globally In Terms & Definitions 1st World Conference for SMS Publish 1st issue of T&D online publically FMI White Paper SMSWG Begins work Membership reached: • > 100 members • > 75 companies SMS Vision 2020 and beyond… SMS Flyer Draft for T&D Rough outline of SMS Environment (Definition) 1st own session within the IW ‘15 in MBSE track Established: • Bylaws • Framework of activities • Website SMS Sessions (NAFEMS Americas 2016) 3 sessions during NWC 2015 2013 2014 2015 2016 2017 2018 …beyond…. * Details are being developed and will find its way here through SMSWG meetings, contributions of members, consulting, etc.

  3. How to approach this….. ? Started this in more detail with SMSWG call on May 31, 2016 With 20 people attending Getting more people actively involved in this discussion Set the stage to ask questions….. To Ask the right questions to structure this work To Find answers based onthe developed questions To create a specific list of actions /timing for deliverables Involve the whole SMSWG throughout this process

  4. Starting to ask questions ….. • How do we structure the SMS space? • Disciplines (Domains) • …. • What type of classification do we need? • What is the hierarchy? • What criteria do we need? • What should be a standard? • Do we need a standard? • …. • ….

  5. SMS as iterative Process Throughout Product Life Cycle* Requirements Assessment Logistic Sign-off Release Requirements Define Manufacturing Design & Product Development Layout Integration Increasing Fidelity Functional Decompose Validate Test Logical Layout Verify Check Simulation & Analysis Production Release Physical Built Prototype Testing * SMS_ThinkTank™

  6. How do we structure the SMS space:Disciplines Requirements Software Electronics Electrical Mechatronics CAE V & V

  7. How do we structure the SMS space:Fidelity 0D 1D 2D 3D

  8. Engineering Disciplines Throughout Product Life Cycle* Model-Based Enterprise Requirements Assessment Logistic Maturity R&D Design Release Production In-service Retire Models ranging from 0D to 3D Enabling foundation • Organization • Culture • Collaboration • Communication Manufacturing Design & Product Development Layout Internet of Things • Process • Integration • Traceability • Impact Analysis • Validation • Verification • Unification • Technology • Infrastructure • Tools • Common • Flexible • Advanced Assessments • Market • Requirements • Quality • Performance Simulations / Analysis • Virtual design • Virtual Testing • Virtual manufacturing • Risk assessment / certification of correctness • Remaining useful life • Costing • Trade-off studies Big Data Simulation & Analysis Production Release Digital Twin Prototype Testing * SMS_ThinkTank™ In-the-Loop Management • Requirements • Quality • Change management • Supply chain • Program management

  9. What type of classification do we need?Type of Standard Communication Collaboration Data Exchange Integration Process Management

  10. What type of classification do we need?Maturity of Standard Identified as a Need Emerging Proposed Released Commonly Use Revision

  11. What is the hierarchy? Disciplines Type Fidelity Maturity

  12. What criteria do we need? • What should be a standard? • Do we need a standard?

  13. Does the Definition of SMS holds still true? In Terms & Definitions

  14. Does the Definition of SMS holds still true? System Modeling and Simulation (SMS) is defining a common engineering framework and virtual environment enabling upfront optimization of a product, system or process, IP management, decision making and speed of execution. This is achieved by being able to virtually predict through simulation behavior, efficiency and performance upfront and real-time virtually. Subsets of SMS are, for example, SPDM, PLM, PLE, ALM, digital manufacturing, business analytics, etc. It combines the worlds of traditional CAE and System Engineering on a new level. SMS creates an all-inclusive umbrella for bringing all engineering areas together from a product, solution and / or ecosystem point of view. 

  15. Proposed Definition of SMS The capability to predict virtually through upfront and real-time product simulation behavior, efficiency and performance optimization. Subsets of SMS include SPDM, PLM, PLE, ALM, digital manufacturing, business analytics, IP management, etc. It integrates the worlds of traditional CAx and Systems Engineering on a new level. SMS creates an all-inclusive umbrella for bringing together diverse engineering disciplines from a product, solution and / or ecosystem point of view. 

  16. Notes from Discussion

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