simulation-supported decision making gene allen. 2 tools for engineers tools engineers want to use...
TRANSCRIPT
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Simulation-Supported Decision Making
Gene Allen
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Tools for Engineers
Tools Engineers want to use to help them make better decisions:
• Slide Rule• Calculator• “?” to leverage Moore’s Law
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Successful Engineering Cultures
• 1950’s U.S. Aerospace Industry• Produced: U-2, X-15, Saturn V, C-130, B-52
• U.S. Navy Nuclear Propulsion Program• Decades of dynamic operations of hundreds of nuclear power plants without casualties
• Combined Theory and Practice
• DID NOT USE COMPUTERS
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DEVELOPING an ENGINEERING KNOWLEDGE BASE
Learning Dominated by Test
YEARSInitial Design
EliminateFailure Modes
Engineering
Demonstration
73%
15 %
10 %
2 %
Certification
CO
ST
Examples of Cost to First Production Examples of Cost to First Production Nonrecurring Development Costs to Build Knowledge BaseNonrecurring Development Costs to Build Knowledge Base
Rocket Engines• SSME $ 2.8 B• F-1 $ 2.4 B• J-2 $ 1.7 B
Jet Engines• F-100 $ 2.0 B
Automobiles• 1996 Ford Taurus $ 2.8 B
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The Fundamental Problem …
VariabilityVariability
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Structural Material Scatter
MATERIAL CHARACTERISTIC CV
Metallic Rupture 8-15%Buckling 14%
Carbon Fiber Rupture 10-17%
Screw, Rivet, Welding Rupture 8%
Bonding Adhesive strength 12-16%Metal/metal 8-13%
Honeycomb Tension 16%Shear, compression 10%Face wrinkling 8%
Inserts Axial loading 12%
Thermal protection (AQ60) In-plane tension 12-24%In-plane compression 15-20%
Source: Klein, M., Schueller, G.I., et.al.,Probabilistic Approach to Structural Factors of Safety in Aerospace, Proceedings of the CNES Spacecraft Structures and Mechanical Testing Conference, Paris, June 1994, Cepadues Edition, Toulouse, 1994.
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The Deception of Precise Geometry
Geometry imperfections should be described as stochastic fields.
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Load Scatter (aerospace)
LOAD TYPE ORIGIN OF RESULTS CV
Launch vehicle thrust STS, ARIANE 5%
Launch vehicle quasi-static loads STS, ARIANE, DELTA 30%- POGO oscillation- stages cut-off- wind shear and gust- landing (STS)
Transient ARIANE 4 60%
Thermal Thermal tests 8-20%
Deployment shocks (Solar array) Aerospatiale 10%
Thruster burn Calibration tests 2%
Acoustic ARIANE 4 and STS (flight) 30%
Vibration Satellite tests 20%
Source: Klein, M., Schueller, G.I., et.al.,Probabilistic Approach to Structural Factors of Safety in Aerospace, Proceedings of the CNES Spacecraft Structures and Mechanical Testing Conference, Paris, June 1994, Cepadues Edition, Toulouse, 1994.
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Simulation for Learning and Decision Making
• Quickly Identify and Understand How a Product Functions:
•What are the major variables driving functionality?
•What are the combinations of variables that lead to problems in complex systems?
• Ability Exists Today•Due to advances in compute capability
Tool is a Correlation Map
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Correlation Maps to Understand How Things Work
InputVariables
OutputVariables
• Ranks input variables and output responses by correlation level
• Follows MIT-developed Design Structure Matrix model format
• Filters Variables Based on Correlation Level
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Upper right –positive correlation
Lower left –negative correlation
A Correlation Map
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Meta Modelof
Design Alternatives
Correlation Map:
- Includes All Results
- Highlights Key Variables
Stochastic Simulation Template 100 MCS runs
Generation of Correlation Maps
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Generation of Correlation Maps
Correlation Map – a 2-D view of Results Data generated from Monte Carlo Analysis
• Incorporates Variability and Uncertainty
• Updated Latin Hypercube sampling
• Independent of the Number of Variables
• Results with 100 runs
• Does Not Violate Physics
• No assumptions of continuity
• “Not elegant, only gives the right answers.”
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Monte Carlo Results show Reality
Understanding the physics of a phenomenon is equivalent to the understanding of the topology and structure of these clouds.
Singlecomputerrun =Analysis
Collectionof computerruns =Simulation
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Monte Carlo Analysis
Solution:Establish tolerances for the input and design variables.
Measure the system’s response in statistical terms.
Sources of Variability• Material Properties• Loads• Boundary and initial conditions• Geometry imperfections• Assembly imperfections• Solver• Computer (round-off, truncation, etc.)• Engineer (choice of element type, algorithm, mesh band-width, etc.)
x1
x2
x3
y1
y2
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Monte Carlo Simulation Basics
f(x)
Integration via the Monte Carlo method: Find the area under the curve, but without knowing the expression of f(x).
Solution: “shoot” a large number of points into the rectangle. Calculate the number of points that fall below f(x). Dividing this number by the total number of points yields an estimate of the area. It is not necessary to know f(x).
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Accuracy of Monte Carlo Simulation
With around 100 points, the error in the area under f(x) in the previous slide is approximately 10%.
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Monte Carlo Simulation Results
12 of the 782D views that resulted from a simulation with6 outputs froma scan of 7 inputs with uniformdistributions.
Number of 2D Views of Results = Sum of all integers from 1 to (Number of Variables -1)
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Understanding Monte Carlo Simulation Results
Simulation generates a large amount of data. • A typical simulation run requires around 100 solver
executions.• Each combination of hundreds to thousands of
variables produces a point cloud. • In each cloud:
• POSITION provides information on PERFORMANCE
• SCATTER represents QUALITY
• SHAPE represents ROBUSTNESS
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Understanding Monte Carlo Simulation Results
KEY:
• REDUCE the Multi-Dimensional Cloud to
EASILY UNDERSTOOD INFORMATION
HOW:
• Condense into a CORRELATION MAP
• Variables are sorted by the strength of their relationships
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Meta Modelof
Design Alternatives
Correlation Map:
- Includes All Results
- Highlights Key Variables
Stochastic Simulation Template 100 MCS runs
Generation of Correlation Maps
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• Stochastic material properties, thicknesses and stiffnesses (70 variables), initial and boundary conditions.• 128 Monte Carlo samples on Cray T3E/512 (Stuttgart Univ.)• 1 week-end of execution time.
First World-wide Stochastic Crash(BMW-CASA, August 1997)
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Crash: Identifying Risks
Deterministic result: optimistic.
Most likely result (trend): realistic and robust.
optimum?
Initial design
Firewall displacement
Angle of impactCourtesy, BMW AG
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Design Improvement Process
1 2
3 4
TargetPerformance
Iteration
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Design ImprovementChange Design Variables to Improve Design
Problem:Reduce weight by 15 kg without reducing performance
US-NCAP
40% offsetrigid wall
Courtesy of BMW AGCourtesy of BMW AG
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Design Improvement
Initial designDeformations (mm) Mass (kg)12, 20, 47, 88, 103, 4, 9, 39, 82 184.6
Final design (Improved, not Optimal)Deformations (mm) Mass (kg)17, 23, 49, 87, 108, 6, 10, 46, 86 169.3
Cost = 90 executions of PAM-Crash
-0.25-0.15-0.050.050.150.25
Courtesy of BMW AG
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Design Improvement
Problem: reduce mass, maintain safety and stiffnessResult:16 kg mass reduction20% reduction of A-pillar deformation40% reduction of dashboard deformationCost = 60 runs (tolerances in all materials andthicknesses) of PAM-Crash and MSC.Nastran
Courtesy, Nissan Motor Company
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Design Improvement
Courtesy, UTSCourtesy, UTS
Problem: reduce mass, maintain safety and stiffnessResult: 10 kg mass reductionCost = 85 runs of PAM-Crash and MSC.Nastran
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Design Improvement
Courtesy EADS-CASA
MODE 1 (9.7Hz) MODE 2 (9.74Hz)
Problem: reduce mass, maintain stiffnessResult: Over 70 kg mass reductionCost = 60 runs of MSC.Nastran (1048 design variables)
Satellite DispenserSatellite DispenserSatellite DispenserSatellite Dispenser
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Design Improvement
Problem:Find a layup so as to achieve:
mass reduction technological requirement static relief factor and buckling performance
Highly Complex Problem • multi target
6 objectives (1 linear static + 5 buckling)10 boundary conditions
• discrete variables type ply shape angle ply
• high variables number (~ 650 to 1000)
180 different plies shape a layup contains 350 to 500 plies a layup contains 300 to 400 ply angles
Result:6% mass reduction, satisfying constraints
Courtesy, Alenia Aeronautica
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Outliers (plots have been scaled between 0 and 1).
Spot-weld Failure and NVH
Courtesy GMC
10% panel thickness variation + random elimination of 5% of welds.
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HISTORY COMMERCIAL APPLICATIONCOST
TIME
COST
TIME
Application of Simulation
CertifiedProduct
CertifiedProduct
AUTOMOTIVE INDUSTRY NEW CAR DESIGN REDUCED FROM 60 MONTHS TO 26 MONTHS
COMMERCIAL AEROSPACE COMPOSITE BODY ON BOEING 787
U.S. DEFENSE INDUSTRY NO CHANGE?
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Process for Decision Support
1.Model a multi-disciplinary design-analysis process
2.Randomize the process model3.Run Monte Carlo simulation of the model4.Process Results
• Correlation Maps showing Influence• Outlier identification showing anomalies• Direction for Design Improvement
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• Identify what influences functionality• Address Uncertainty and Variation
• Provides credibility in modeling & simulation• Results clouds represent what is possible
• Easy to use• No methods or algorithms to learn
• Reduces risk through better engineering• Takes all inputs into account vice using initial assumptions
• Changing the general engineering process
Correlation Maps - Filter Complexity while Modeling Reality
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I acknowledge with gratitude the contributions to this presentation made by:• Dr. Jacek Marczyk – Ontonix• Dr. Edward Stanton – MSC (retired)
Acknowledgement