introduction to complex system engineering
DESCRIPTION
Introduction to Complex System Engineering. Emmanuel FUCHS Slides available soon at www.elfuchs.fr. Information Systems. Complex System Examples. System Problems Examples. System Problems Examples. System definition (Eberhardt Rechtin 1926-2006). - PowerPoint PPT PresentationTRANSCRIPT
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Introduction to Complex System Engineering
Emmanuel FUCHS
Slides available soon at www.elfuchs.fr
![Page 2: Introduction to Complex System Engineering](https://reader033.vdocuments.site/reader033/viewer/2022061420/56815041550346895dbe3fb9/html5/thumbnails/2.jpg)
Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
![Page 3: Introduction to Complex System Engineering](https://reader033.vdocuments.site/reader033/viewer/2022061420/56815041550346895dbe3fb9/html5/thumbnails/3.jpg)
Information Systems
ComplexSystem
Examples
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System ProblemsExamples
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System Problems Examples
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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System definition (Eberhardt Rechtin 1926-2006)
• A system is a construct or collection of different elements that together produce results not obtainable by the elements alone.
• The elements, or parts, can include people, hardware, software, facilities, policies, and documents; that is, all things required to produce systems-level results.
• The results include system level qualities, properties, characteristics, functions, behavior and performance.
• The value added by the system as a whole, beyond that contributed independently by the parts, is primarily created by the relationship among the parts; that is, how they are interconnected.
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Systemic
The whole is greater than the sum of the parts;
The part is greater than a fraction of the whole.Aristotle
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System: another definition
• A system is any set (group) of interdependent or temporally interacting parts.
• Parts are generally systems themselves and are composed of other parts, just as systems are generally parts of other systems.
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System Definition
SubSystem
SubSystem
SubSystem
SystemUsers
Mission
EnvironmentStakeholders
Border
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System
Components
Context
operates In
Purpose
built from
Life Cycle
Functions
performs
ExternalSystem
operates In
performs
Items
receive, transform, sends
Interfaces
performs
EnergyPhysical
EntityInformation
Entity
Interacts with via item
has
carries
has a
has a
performs
System Meta Model
From INCOSE
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SE Bodies
• http://www.afis.fr/– Association Française d'Ingénierie Système
• http://www.incose.org/– International Council on Systems Engineering
(INCOSE)
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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System Engineering Definition
“an interdisciplinary approach encompassing the entire technical effort to evolve and verify an integrated and balanced set of system, people, product, and process solutions that satisfy customer needs…..”
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System Engineering (SE)
• SE focuses on defining customer needs and required functionality early in the development cycle, documenting requirements, then proceeding with design synthesis and system validation while considering the complete problem
• Systems engineers deal with abstract systems, and rely on other engineering disciplines to design and deliver the tangible products that are the realization of those systems.
• Systems engineering effort spans the whole system lifecycle.
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Systemic Approach
• One + One > two
• Aristotle : The whole is more than the sum of its parts.– Parts (Components)– Connections
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System Engineering Meta Model
SystemEngineering
EnablingProducts
focus on
EndProduct
OperationalEnvironment
Stackholdersexpectations
CostsSchedule
Performances
StructuredDiscoverProcess
Team
must be on
define in term of
operates in
focus onfocus on
balance in
maintains vision on
required for
is a performed by
From INCOSE
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System engineer/architect
• Works with system abstraction.– It is impossible to master everything
• Requirements Management
• System Model
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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Design the right system
As proposed bythe project sponsor
As proposed by the programmers
As specified in the project request
As designed bythe project analyst
As installed at the users’ site
What the customer really want
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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Process Definition
• Set of interrelated of interacting activities which transforms inputs to outputs
P
Inputs Outputs
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A Process
UserRequirement
Analysis
SystemRequirement
Analysis
SystemDesign
ComponentsDeveloppmentComponents
DeveloppmentComponents
DeveloppmentComponents
Developpment
SystemIntegration
SystemValidation
SystemVerfication
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Process: V cycle
UserRequirement
Analysis
SystemRequirement
Analysis
SystemDesign
ComponentsDeveloppmentComponents
DeveloppmentComponents
DeveloppmentComponents
Developpment
SystemIntegration
SystemValidation
SystemVerfication
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Sequential V cycle drawbacks
DocumentationAnd mock-up
Phase
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Sequential V cycle drawbacks
DocumentationAnd mock-up
Phase
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Iterative and Incremental
Incremental
Iterative
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Barry W. Boehm
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Iterative and Incremental
• The Systems Engineering Process is not sequential. It is parallel and iterative.
• The complex interrelationship between creating and improving models throughout the process of developing and selecting alternatives is a good example of the dynamic nature of the systems engineering process.
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Process Standardization
• NASA• DOD (US Departement Of Defense):
– Documentation Model
• IEEE• ISO (International Organization for
Standardization) • IEC (International Electrotechnical Committee).
– ISO/IEC 15504 / SPICE (Software Process Improvement and Capability dEtermination)
• SEI (Software Engineering Institute)
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Capability Maturity Model - Integration
• CMMI defines the essential elements of effective processes for engineering disciplines based on best industry experiences.
• CMMI models provide guidance when developing and evaluating processes.
• CMMI models are not actually processes or process descriptions.
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CMMI Maturity Levels
Level Identified as Status
5 optimizing focus on process improvement
4quantitatively managed process measured and controlled
3 definedprocess characterized for the organization and is proactive
2 managedprocess characterized by projects and often reactive
1 initialprocess uncontrolled poorly managed and reactive
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Process Documentation and Review
• SSS: System/Segment Specification • SSDD : System/Segment Design Document • IRS : Interface Requirement Specification• ICD : Interface Control Definition
• SRR : System Requirement Review• SDR : System Design Review• TRR : Test Readiness Review
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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Process Activities
UserRequirement
Analysis
SystemRequirement
Analysis
SystemDesign
ComponentsDeveloppmentComponents
DeveloppmentComponents
DeveloppmentComponents
Developpment
SystemIntegration
SystemValidation
SystemVerfication
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What is a requirement ?
• A requirement is a condition to be satisfied in order to respond to:– A contract– A standard– A specification – Any other document and / or model imposed.
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Requirements
• User’s Requirements– Statements in natural language of the system
services.– Described by the user
• System Requirements– Structured document setting out detailed
description of system services. – Part of the contract
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User’s Requirements example
• A customer must be able to abort a transaction in progress by pressing the Cancel key instead of responding to a request from the machine.
• The washing machine will be used in the following countries: UK, USA, Europe, Eastern Europe
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Process
UserRequirement
Analysis
SystemRequirement
Analysis
SystemDesign
ComponentsDeveloppmentComponents
DeveloppmentComponents
DeveloppmentComponents
Developpment
SystemIntegration
SystemValidation
SystemVerfication
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System Requirements
• The System shall provide ........
• The System shall be capable of ........
• The System shall weigh ........
• The Subsystem #1 shall provide ........
• The Subsystem #2 shall interface with .....
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Requirement Quality
• A good requirement states something that is necessary, verifiable, and attainable
• To be verifiable, the requirement must state something that can be verified by:– analysis, inspection, test, or demonstration
(AIDT)
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Requirement analysis
• User Requirement– Minimum levels of noise and vibration
are desirable.
• System Requirement– Requirement 03320: The noise
generated shall not exceed 60 db
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Requirement Types
• Functional requirements– Functional requirements capture the intended
behavior of the system. – This behavior may be expressed as services,
tasks or functions the system is required to perform
• Non-Functional requirements– All others
• Constraints
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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Process
UserRequirement
Analysis
SystemRequirement
Analysis
SystemDesign
ComponentsDeveloppmentComponents
DeveloppmentComponents
DeveloppmentComponents
Developpment
SystemIntegration
SystemValidation
SystemVerfication
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System Architecture
• The System Architecture identifies all the products (including enabling products) that are necessary to support the system and, by implication, the processes necessary for development, production/construction, deployment, operations, support, disposal, training, and verification
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Architecture Modeling
• System : Abstraction– Functional model– Dynamic model– Semantic Model– Object model– Physical Model– Interfaces Model
• Model Views
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Architecture Meta Model
Mission
system
stakeHolder
ViewPoints
1..*has a
1..*
Is addressed by
a
concerns views
Conform to
Is important for
a1..*
*
1..*
Used to cover
fullfil1..*
Architecturedescription
identify
1..*i
1..*
identify
Environnementinfluence
Is part of
View PointsLibrary
0..1Has sources
model
1..*
Participate in1..*
consist off
Established method for
1..*
1..*
select
1..*Organised in
ArchitectureHas a
1Described by
rationalprovides
1..*
participatesin
1
aggregates
From IEEE
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Architecture and Components Assembly
system
Architecture
connections component
define use
has
has
0..*
2 Is connected to
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Example of Architecture Views
• The Functional Architecture – identifies and structures the allocated
functional and performance requirements.
• The Physical Architecture– depicts the system product by showing how it
is broken down into subsystems and components
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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Functional To Physical Model
• Functional : Discover the system functions
• Washing Machine– What it does ?
• Washes
– How it does ?• Agitates
– Physical Component : Agitator
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Functional VS physical Model
• How to fly ?
• Look at birds: Physical Model
• So I need: Legs, Eyes, Brain, and Wings.
• But I can not fly !!!
• Why ?
• I have to find the flight functional model !
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Flying functional model
• Functional decomposition of flying function:– Produce horizontal thrust,– Produce vertical lift. – Takeoff and land, – Sense position and velocity, – Navigate,
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Example Birds physical for flying
• Physical decomposition: – physical components that birds used to fly:
Legs, Eyes, Brain, and Wings.
• But can not be applied to system directly
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Function Airplane Physical
Component Bird Physical
Component
Takeoff and land Wheels, Legs
Sense position and velocity
Vision or radar Eyes
Navigate Brain or computer Brain
Produce horizontal thrust
Propeller or jet Wings
Produce vertical lift Wings Wings
Bird and Airplane Functional to Physical architecture
mapping
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Multi-criteria decision
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Trade Off
• Multi-criteria decision-aiding techniques are available to help discover the preferred alternatives.
• This analysis should be repeated, as better data becomes available.
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Washing Machine example
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Context Diagram
Dirty Cloths
Washing
Machine
Cold H2O
Soap
Electricity
Operator Settings
Clean Dump Cloths
Dirty Hot H2O
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Washing Machine Functional Breakdown
Washingmachine
rinsing wringing
Washing
agitating
draining
supply
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Washing Machine Data Flows
heating agitating
holding
supplying draining
power
dirty clothes clean clothes
Dirty water
Clean water
Soap
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Washing Machine Physical Model
agitator
tube
draining
hand-operated washer
plungers
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Washing Machine Physical Model
agitator
Outer tube
draining
top loading
US
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Washing Machine Physical ModelWashing Machine
ElectricalSubSystem
SequenceSubSystem
MechanicalSubSystem
Drive MotorHeatingResistor
LiquidSubSystem
Agitator
Inner tube pumpdrawervalve Outer tube
top loading
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Washing Machine Physical Model
agitator
Outer tube
draining
Inner tube = drum
front loading
Europe
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Washing Machine Physical ModelWashing Machine
ElectricalSubSystem
SequenceSubSystem
MechanicalSubSystem
Drive MotorHeatingResistor
LiquidSubSystem
Drum
tube pumpdrawervalve
front loading
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Washing Machine Physical Model
drivingmotor
drum
drawer pump
power
dirty clothes clean clothes
Dirty water
Clean water
Soap
tube
front loading
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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Process
UserRequirement
Analysis
SystemRequirement
Analysis
SystemDesign
ComponentsDeveloppmentComponents
DeveloppmentComponents
DeveloppmentComponents
Developpment
SystemIntegration
SystemValidation
SystemVerfication
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Integration
• Integration means bringing things together so they work as a whole.
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Spaghetti Plate Syndrome
Spaghetti Plate
System Architect System Integrator
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Encapsulation Analogy
Implementation Interface
A driver doesn't care of engine's internal working.He only knows the interface
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Content
• Complex System Example
• System Definition
• System Engineering
• Design The Right System
• Process
• Requirements
• Design and Architecture
• Physical Decomposition
• Integration
• IVVQCA
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UserRequirement
Analysis
SystemRequirement
Analysis
SystemDesign
ComponentsDeveloppmentComponents
DeveloppmentComponents
DeveloppmentComponents
Developpment
SystemIntegration
SystemValidation
SystemVerfication
Process
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IVVQCA
• Integrate : – Build the system
• Verification : – Ensures that you built it right
• Validation : – Ensures that you built the right thing
• Certification : – Ensure that the system is safe
• Acceptance : – Ensures that the customer gets what he wants and
the company get paid.
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Ensure that the system is safe
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Conclusion
Thank You For Your Attention
Questions are welcome
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