Systems-driven Product Development Overview
Key PLM Requirements to Deliver Systems-Driven Product Development
Key PLM Requirements to Deliver Systems-Driven Product Development What Part(s) # to order What is the mfg. sequence What is needed What has to be done What Equipment are required What is the Serial Number How it is done How it is implemented
Collaborative System Development System Engineering based PLM Concept / Requirements Delivered to Customer Architecture System Sub- system Component Program Management Definition Virtual Validation Physical Validation Production Definition
Requirements Distillation & Decomposition Product definition Customer requirements Product requirements Plant, process requirements PROGRAM INITIATION PROGRAM DEFINITION Ideation Theme development System requirements SYSTEM DESIGN SYSTEM VALIDATION Concept design Engineering definition Sub- system requirements Component requirements SUB- SYSTEM DESIGN COMPONENT DESIGN SUB- SYSTEM VALIDATION COMPONENT VALIDATION Preliminary design Component detailing
V-Model Systems Engineering Cross-Domain Vehicle definition CUSTOMER VIEW Customer Vehicle Plant, Process Ideation Theme development ENGINEERING VIEW System Concept design Engineering definition Sub- system Component Preliminary design Component detailing Implementation
V-Model Systems Engineering Cross-Domain Vehicle definition CUSTOMER VIEW Customer Vehicle Plant, Process Ideation Theme development Engineering definition ENGINEERING VIEW System Sub- system Component Mechanical Electrical Electronics Software Process Plant SYSTEM DESIGN SUB- SYSTEM DESIGN SYSTEM VALIDATION SUB- SYSTEM VALIDATION Concept design Preliminary design Component detailing Implementation COMPONENT DESIGN COMPONENT VALIDATION
Systems-driven Product Development A model- based systems framework...
Systems-driven Product Development A model- based systems framework... Integrating multi- disciplinary activity...
Systems-driven Product Development A model- based systems framework... Integrating multi- disciplinary activity... With closed- loop performance verification
Key Requirements for Systems-driven Product Development OPEN FOUNDATION
Closed-loop Performance Engineering
Four Elements of Closed-loop Performance Engineering
Closed-loop Performance Engineering Model-based Systems Engineering
Modeling Environment Designed to Meet the Challenges Facing Product Companies
Closed-loop Performance Engineering Integrated Design and Simulation
CAD Integrated Simulation Environment
Closed-loop Performance Engineering Simulation Linked to Test
Closing the Loop Between Simulation and Physical Test Test- based Engineering (structural, modal, NVH, acoustics, durability)
Closing the Loop Between Simulation and Physical Test Product Design Simulation Controls Engineering Mechatronic System Simulation System Synthesis System Data Management Multi- physics Modeling Test- based Engineering (structural, modal, NVH, acoustics, durability)
Closed-loop Performance Engineering Enterprise System Definition
Teamcenter Brings Closed-loop Engineering to the Entire Enterprise Enabling Closed- loop Performance Validation Across the Enterprise
Enterprise System Definition The Need to Manage Change
Centralized Change Management to Ensure Quick Cross-domain Reaction Making responsiveness a competitive advantage Ensure everyone works on latest data and is alerted to change Manage dependencies between functions and deliverables Simulate and verify the impact of change across domains
Schedule Management to Drive Stage Gate Process and Resolve Issues Efficiently Schedule Management Integrated with PLM Track tasks affected by change in context of stage- gate process Perform what- if analyses for quick issue resolution Coordinate domain schedules within overall schedule phases
Enterprise System Definition The Need to Manage Configurations
System-Driven Design with Consistent Configuration Management Across Domains A Master Product Configuration B SW C Manuals D Platform E F SW G H System HW I J SW HW K L
System-Driven Design with Consistent Configuration Management Across Domains A Master Product Configuration B SW C Manuals D Platform E F SW G H System HW I J SW HW K L A Variant A A Variant B B SW C D C D F SW G E H HW I HW I J SW HW K L HW K L
Systems-driven Product Development Achieving Traceability Throughout the Lifecycle
Systems-driven Product Development Achieving Traceability Throughout the Lifecycle
Open for Business Open Interoperability Framework Open for Business Business Philosophy OPEN PLM COMMUNITIES Open partners Open adopters Customers Interest groups (GAAG, ) Standards (STEP, ISO, ) OPEN PLM APPLICATIONS NX Teamcenter Tecnomatix OPEN PLM COMPONENTS Parasolid D-Cubed PLM Vis NX Nastran PLM XML SDK JT & XT Toolkits FMI OPEN PLM ARCHITECTURE Lifecycle data architecture Web services Knowledge Fusion NX automation kernel
Closing the Loop from Idea to Product Building A Complete Systems Engineering Platform Customer Desires Attribute Optimization Styling and Geometry Testing Hardware/Controls Manufacturing
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