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Transcript of 01_The Design Process_NASA.pdf
![Page 1: 01_The Design Process_NASA.pdf](https://reader033.fdocuments.us/reader033/viewer/2022051820/5529e09f55034663028b4616/html5/thumbnails/1.jpg)
developed by
John K. Gershenson, Ph.D.Professor of Mechanical Engineering
MICHIGAN TECHNOLOGICAL UNIVERSITYand
Directorthebenshimagroup
01. The Design ProcessNASA ESMD Capstone Design
National Aeronautics and Space Administration
www.nasa.gov
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 2
The Design Process
Weighted User Requirements
Project Analysis
Statement
Design Project Proposal
Project Plan
Quantitative Design
Constraints
Project Description
Design Evaluation
Plan
Project Approval Document
PCR
Team Organization
Design Concept
Keys
Pugh Evaluation
Technology Readiness
AssessmentQFD
Concept Sketches
Concept Benchmarks
Functional Description
SRR
SDR
Detailed Design Concept Drawings
Bill of Materials
Construction/ Assembly Drawings
Parameter Analysis FMEA Simulation Functional
Testing DfX
Refined System Concept
DOR
PDR
Detailed Design
Drawings
Production Specifications
Production Plan
Detailed Design Drawings and Specifications
System Optimization
Prototype Testing
Refined Parameter
Design
DOR
CDR PRR
Fabrication
TRR
SAR
Final Design
ORR
Pre-Phase ADesign Problem
Analysis
Phase ASystem Level
Conceptual Design
Phase BParameter Level
Design
Phase COptimized
Parameter Design
Phase DFabrication, Assembly,
and Testing
Review PointsPCR- Project Concept Review SRR- System Requirements ReviewSDR- System Design Review DOR- Design Objectives ReviewPDR - Product Design Review CDR - Critical Design ReviewPRR- Production Readiness Review TRR- Test Readiness ReviewSAR - System Acceptance Review ORR - Operational Readiness Review
Assembly
Testing
Design Objectives w/Targets
Final System Delivered
Parameter Level Design Proposal
Best System Concept Proposal
GOALS
STEPS
TOOLS
REVIEW
DOCUMENT
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 3
Why Use Such a Long, Structured Approach?
It avoids embarrassment when a better solution is found far into the project
The disciplined approach leads to more creative solutions and time saved in the long run
(Lumsdaine et al., 2006)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 4
Why Use Such a Long, Structured Approach?
It saves costs– Changing concepts on paper is inexpensive– Changes during prototyping are more costly– Changes at production ramp-up are very
expensive– Changes due to warranty claims and recalls
are extremely expensive and can affect market share and the reputation of the company
(Lumsdaine et al., 2006)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 5
Project Life-Cycle Phases
(NASA Systems Engineering Handbook, SP 2007)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 6
Objective
A system is designed, built, and operated so that it accomplishes its purpose safely in the most cost-effective way possible considering performance, cost, schedule, and risk
(NASA Systems Engineering Handbook, SP 2007)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 7
What is Cost-effectiveness?
Cost– The cost of a system is the value of the resources
needed to design, build, operate, and dispose of it– Because resources come in many forms- work
performed by personnel and contractors; materials; energy; and the use of facilities and equipment such as wind tunnels, factories, offices, and computers - it is convenient to express these values in common terms by using monetary units (such as dollars of a specified year)
(NASA Systems Engineering Handbook, SP 2007)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 8
What is Cost-effectiveness?
Effectiveness– The effectiveness of a system is a quantitative measure of
the degree to which the system’s purpose is achieved– Effectiveness measures are usually very dependent upon
system performance For example, launch vehicle effectiveness depends on the probability of
successfully injecting a payload onto a usable trajectory The associated system performance attributes include the mass that
can be put into a specified nominal orbit, the trade between injected mass and launch velocity, and launch availability
(NASA Systems Engineering Handbook, SP 2007)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 9
What is Cost-effectiveness?
Cost-effectiveness– The cost-effectiveness of a system combines both the cost
and the effectiveness of the system in the context of its objectives
– While it may be necessary to measure either or both of those in terms of several numbers, it is sometimes possible to combine the components into a meaningful, single-valued objective function for use in design optimization
– Even without knowing how to trade effectiveness for cost, designs that have lower cost and higher effectiveness are always preferred
(NASA Systems Engineering Handbook, SP 2007)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 10
The Dilemma
At each cost-effective solution– To reduce cost at constant risk,
performance must be reduced– To reduce risk at constant cost,
performance must be reduced– To reduce cost at constant performance,
higher risks must be accepted– To reduce risk at constant performance,
higher costs must be accepted(NASA Systems Engineering Handbook, SP 2007)
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 11
Pre-Phase A: Design Problem Analysis
Weighted User Requirements
Design Objectives w/Targets
Project Analysis Statement
Design Project
Proposal
Project PlanQuantitative
Design Constraints
ProjectDescription
Design Evaluation
Plan
Project Approval Document
ProjectConceptReview
Team Organization
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 12
Pre-Phase A: Design Problem Analysis
Goals– Design Project Proposal
Steps– Team Organization– Quantitative Design Constraints– Project Analysis Statement– Project Planning– Design Evaluation Plan
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 13
Pre-Phase A: Design Problem Analysis
Tools– Weighted User Requirements– Design Objectives with Targets
Reviews– Project Concept Review
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 14
Phase A: System Level Conceptual Design
Design Concept
Keys
Pugh Evaluation
Technology Readiness
AssessmentQFD
Best System Concept Proposal
Concept Sketches
Concept Benchmarks
Functional Description
Design Evaluation
Plan
SystemRequirements
Review
SystemDesignReview
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 15
Phase A: System Level Conceptual Design
Goal– Best System Concept Proposal
Steps– Design Evaluation Plan (from Pre-Phase
A)– Design Concept Keys– Pugh Evaluation– Technology Readiness Assessment– QFD
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 16
Phase A: System Level Conceptual Design
Tools– Concept Sketches– Concept Benchmark– Functional Description
Reviews– System Requirements Review– System Design Review
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 17
Phase B: Parameter Level Design
Detailed Design Concept
Drawings
Bill of Materials
Construction/ Assembly Drawings
Parameter Level Design
Proposal
Parameter Analysis FMEA Simulation Functional
Testing DfX
Refined System Concept
DesignObjectives
Review
ProductDesignReview
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 18
Phase B: Parameter Level Design
Goal– Parameter Level Design Proposal
Steps– Detailed Design Concept Drawings– Bill of Materials– Construction/Assembly Drawings
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 19
Phase B: Parameter Level Design
Tools– Parameter Analysis– FMEA– Simulation– Functional Testing– DfX
Reviews– Design Objectives Review– Product Design Review
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 20
Phase C: Optimized Parameter Design
Detailed Design
Drawings
Production Specifications
Production Plan
Detailed Design Drawings and Specifications
System Optimization
Prototype Testing
Refined Parameter
Design
Design Objectives
Review
Critical Design Review
Production Readiness
Review
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 21
Phase C: Optimized Parameter Design
Goal– Detailed Design Drawings and
SpecificationsSteps
– Detailed Design Drawings– Production Specifications– Production Plan
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 22
Phase C: Optimized Parameter Design
Tools– System Optimization and Tradeoffs– Prototype Testing
Reviews– Design Objectives Reviews– Critical Design Review– Production Readiness Review
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 23
Phase D: Fabrication, Assembly, and Testing
Fabrication
Assembly
TestingTest Readiness
Review
System Acceptance
Review
Final Design
Final System Delivered
Operational Readiness
Review
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 24
Phase D: Fabrication, Assembly, and Testing
Goal– Final System Delivered
Steps– Fabrication– Assembly– Testing
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 25
Phase D: Fabrication, Assembly, and Testing
Reviews– Test Readiness Review– System Acceptance Review– Operational Readiness Review
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 26
Systems Engineering
Systems engineering is a methodical, disciplined approach for the design, realization, technical management, operations, and retirement of a system
A “system” is a construct or collection of different elements that together produce results not obtainable by the elements alone
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 27
Objective
“The objective of systems engineering is to see to it that the system is designed, built, and operated so that it accomplishes its purpose in the most cost-effective way possible, considering performance, cost, schedule and risk.”
– NASA Systems Engineering Handbook SP-6105
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 28
System Engineering Functions
Major functions that lay the ground work for a robust approach to the design, creation, and operation of system
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 29
Key SE Functions
Design Objectives and ConstraintsWeighted User RequirementsFunctional DescriptionsValidation and Verification Interfaces and ICDsMilestone ReviewsRisk Management
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 30
Key SE Functions in the Design Process
Weighted User Requirements
Project Analysis
Statement
Design Project Proposal
Project Plan
Quantitative Design
Constraints
Project Description
Design Evaluation
Plan
Project Approval Document
PCR
Team Organization
Design Concept
Keys
Pugh Evaluation
Technology Readiness
AssessmentQFD
Concept Sketches
Concept Benchmarks
Functional Description
SRR
SDR
Detailed Design Concept Drawings
Bill of Materials
Construction/ Assembly Drawings
Parameter Analysis FMEA Simulation Functional
Testing DfX
Refined System Concept
DOR
PDR
Detailed Design
Drawings
Production Specifications
Production Plan
Detailed Design Drawings and Specifications
System Optimization
Prototype Testing
Refined Parameter
Design
DOR
CDR PRR
Fabrication
TRR
SAR
Final Design
ORR
Pre-Phase ADesign Problem
Analysis
Phase ASystem Level
Conceptual Design
Phase BParameter Level
Design
Phase COptimized
Parameter Design
Phase DFabrication, Assembly,
and Testing
Assembly
Testing
Design Objectives w/Targets
Final System Delivered
Parameter Level Design Proposal
Best System Concept Proposal
Weighted User Requirements, Design Objectives, Functional Descriptions, FMEA
Milestone Reviews
Validation and Verification
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 31
Design Objectives and Constraints
When?– Pre-Phase A: Design Problem Analysis
What?– Clearly define and document the design
goals to make sure that the team is working towards a common goal
– Capture quantitative constraints that can be used to validate product design
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 32
Weighted User Requirements
When?– Pre-Phase A: Design Problem Analysis
What?– Establish the various requirements like functional,
performance, interface, environmental, etc.– Document these requirements in a formal manner– Refine these requirements by conducting trade
studies
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 33
Functional Descriptions
When?– Phase A: System Level Conceptual Design
What?– Goal is to develop an architecture and
design that meets the requirements– Block diagrams are key mechanism for
documenting and communicating the functional analysis and architecture to the team
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 34
Validation and Verification
When?– Takes place over the systems engineering
lifecycle to show that systems of interest meet the objectives
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 35
Validation
Assure design meets the objectives– For example, validate the ICDs to weighted
user requirements and functional descriptions and architecture
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 36
Verification
Verify the design against the requirements– Use as an important risk reduction
measure– Carry out functional tests and simulations
as in Phase B– Using a Critical Design Review (CDR) in
Phase C, assign the requirements a verification method
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 37
Verification
Verify the design against the requirements– Verify the requirements in Phase C and D
using the Production Readiness Review (PRR) and Operational Readiness Review (ORR) respectively
– Review of the verification results is particularly effective in identifying and correcting problems
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 38
Interfaces and ICDs
When?– Before Phase C– Establish before Product Design Review
(PDR) to allow detailed design to proceed with minimal risk of changes
What?– Describe and document where and how
various system elements need to connect or communicate with each other
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 39
Milestone Reviews
When?– Between and during all phases
What?– Validate the quality and completeness of a
system engineering phase or portion thereof
– Facilitate knowledge sharing and identification and resolution of challenges and issues
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National Aeronautics and Space Administration01. The Design ProcessNASA ESMD Capstone Design
John Gershenson, Ph.D. 40
Risk Management
When?– Apply various tools at appropriate phases
What?– Perform FMEA at parameter level design
during Phase B– Report results of FMEA at critical milestone
reviews– Use other tools like FTA, reliability
analyses, etc.
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developed by
John K. Gershenson, Ph.D.Professor of Mechanical Engineering
MICHIGAN TECHNOLOGICAL UNIVERSITYand
Directorthebenshimagroup
01. The Design ProcessNASA ESMD Capstone Design
National Aeronautics and Space Administration
www.nasa.gov
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