Difference between revisions of "Outline"
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− | {{#tree: | + | <div id="outline-tree">{{#tree:root=Outline| |
− | *[[ | + | *[[SEBoK Table of Contents|Table of Contents]] |
− | *[[SEBoK | + | *[[SEBoK Introduction|Part 1: SEBoK Introduction]] |
− | **[[Scope | + | **[[Introduction to the SEBoK]] |
− | **[[Structure of the SEBoK]] | + | ***[[Scope of the SEBoK]] |
− | **[[Economic Value of Systems Engineering]] | + | ***[[Structure of the SEBoK]] |
− | **[[Systems Engineering | + | **[[Introduction to Systems Engineering]] |
− | **[[Systems Engineering and Other Disciplines | + | ***[[Systems Engineering Overview]] |
+ | ***[[Economic Value of Systems Engineering]] | ||
+ | ***[[Systems Engineering: Historic and Future Challenges]] | ||
+ | ***[[Systems Engineering and Other Disciplines]] | ||
+ | ***[[Fundamentals for Future Systems Engineering]] | ||
**[[SEBoK Users and Uses]] | **[[SEBoK Users and Uses]] | ||
− | ***[[Use Case | + | ***[[Use Case 0: Systems Engineering Novices]] |
− | ***[[Use Case | + | ***[[Use Case 1: Practicing Systems Engineers]] |
− | ***[[Use Case | + | ***[[Use Case 2: Other Engineers]] |
− | ***[[Use Case | + | ***[[Use Case 3: Customers of Systems Engineering]] |
− | ***[[Use Case 5: General Managers| | + | ***[[Use Case 4: Educators and Researchers]] |
− | **[[ | + | ***[[Use Case 5: General Managers]] |
− | **[[ | + | *[[Foundations of Systems Engineering|Part 2: Foundations of Systems Engineering]] |
− | *[[Systems | + | **[[Systems Engineering Fundamentals]] |
− | **[[Systems | + | ***[[Introduction to Systems Engineering Fundamentals]] |
− | + | ***[[Systems Engineering Core Concepts]] | |
+ | ***[[Systems Engineering Principles]] | ||
+ | ***[[Systems Engineering Heuristics]] | ||
+ | **[[The Nature of Systems]] | ||
***[[Types of Systems]] | ***[[Types of Systems]] | ||
− | ***[[ | + | ***[[Cycles and the Cyclic Nature of Systems]] |
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**[[Systems Science]] | **[[Systems Science]] | ||
***[[History of Systems Science]] | ***[[History of Systems Science]] | ||
***[[Systems Approaches]] | ***[[Systems Approaches]] | ||
+ | ***[[Complexity]] | ||
+ | ***[[Emergence]] | ||
**[[Systems Thinking]] | **[[Systems Thinking]] | ||
***[[What is Systems Thinking?]] | ***[[What is Systems Thinking?]] | ||
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***[[Types of Models]] | ***[[Types of Models]] | ||
***[[System Modeling Concepts]] | ***[[System Modeling Concepts]] | ||
+ | ***[[Integrating Supporting Aspects into System Models]] | ||
***[[Modeling Standards]] | ***[[Modeling Standards]] | ||
**[[Systems Approach Applied to Engineered Systems]] | **[[Systems Approach Applied to Engineered Systems]] | ||
− | ***[[Overview of Systems | + | ***[[Overview of the Systems Approach]] |
***[[Engineered System Context]] | ***[[Engineered System Context]] | ||
***[[Identifying and Understanding Problems and Opportunities]] | ***[[Identifying and Understanding Problems and Opportunities]] | ||
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***[[Implementing and Proving a Solution]] | ***[[Implementing and Proving a Solution]] | ||
***[[Deploying, Using, and Sustaining Systems to Solve Problems]] | ***[[Deploying, Using, and Sustaining Systems to Solve Problems]] | ||
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***[[Applying the Systems Approach]] | ***[[Applying the Systems Approach]] | ||
*[[Systems Engineering and Management|Part 3: SE and Management]] | *[[Systems Engineering and Management|Part 3: SE and Management]] | ||
− | **[[Life Cycle | + | **[[Systems Engineering STEM Overview]] |
− | ***[[Life Cycle | + | **[[Model-Based Systems Engineering (MBSE)]] |
− | ***[[ | + | **[[Systems Lifecycle Approaches]] |
− | ***[[System | + | ***[[Generic Life Cycle Model]] |
− | ***[[System Life Cycle Process Models: | + | ***[[Applying Life Cycle Processes]] |
− | ***[[ | + | ***[[Life Cycle Processes and Enterprise Need]] |
+ | **[[System Lifecycle Models]] | ||
+ | ***[[System Lifecycle Process Drivers and Choices]] | ||
+ | ***[[System Lifecycle Process Models: Vee]] | ||
+ | ***[[System Lifecycle Process Models: Incremental]] | ||
+ | ***[[System Life Cycle Process Models: Agile Systems Engineering]] <span style="color:#800000">New article</span> | ||
+ | ***[[Process Integration]] | ||
***[[Lean Engineering]] | ***[[Lean Engineering]] | ||
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**[[Systems Engineering Management]] | **[[Systems Engineering Management]] | ||
− | ***[[Planning]] | + | ***[[Technical Planning]] |
***[[Assessment and Control]] | ***[[Assessment and Control]] | ||
+ | ***[[Decision Management]] | ||
***[[Risk Management]] | ***[[Risk Management]] | ||
− | |||
− | |||
***[[Configuration Management]] | ***[[Configuration Management]] | ||
***[[Information Management]] | ***[[Information Management]] | ||
***[[Quality Management]] | ***[[Quality Management]] | ||
− | **[[ | + | ***[[Measurement]] |
+ | **[[Business and Mission Analysis]] | ||
+ | ***[[Business or Mission Analysis]] | ||
+ | ***[[System Views]] | ||
+ | **[[Stakeholder Needs Definition]] | ||
+ | ***[[Stakeholder Requirements Definition]] | ||
+ | **[[System Architecture Definition]] | ||
+ | ***[[Functional Architecture]] | ||
+ | ***[[Logical Architecture]] | ||
+ | ***[[Physical Architecture]] | ||
+ | **[[Detailed Design Definition]] | ||
+ | **[[System Analysis]] | ||
+ | **[[System Realization]] | ||
+ | **[[System Implementation]] | ||
+ | **[[System Integration]] | ||
+ | **[[System Verification]] | ||
+ | **[[System Transition]] | ||
+ | **[[System Validation]] | ||
+ | **[[System Operation]] | ||
+ | **[[System Maintenance]] | ||
+ | **[[Logistics]] | ||
+ | **[[Service Life Management]] | ||
***[[Service Life Extension]] | ***[[Service Life Extension]] | ||
− | ***[[Capability | + | ***[[Capability Updates, Upgrades, and Modernization]] |
− | ***[[Disposal and Retirement]] | + | ***[[System Disposal and Retirement]] |
**[[Systems Engineering Standards]] | **[[Systems Engineering Standards]] | ||
***[[Relevant Standards]] | ***[[Relevant Standards]] | ||
− | ***[[Alignment and Comparison of | + | ***[[Alignment and Comparison of Systems Engineering Standards]] |
− | ***[[Application of Systems Engineering Standards | + | ***[[Application of Systems Engineering Standards]] |
*[[Applications of Systems Engineering|Part 4: Applications of Systems Engineering]] | *[[Applications of Systems Engineering|Part 4: Applications of Systems Engineering]] | ||
**[[Product Systems Engineering]] | **[[Product Systems Engineering]] | ||
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***[[Enterprise Capability Management]] | ***[[Enterprise Capability Management]] | ||
**[[Systems of Systems (SoS)]] | **[[Systems of Systems (SoS)]] | ||
− | ***[[Architecting Approaches for Systems of Systems | + | ***[[Architecting Approaches for Systems of Systems]] |
− | ***[[Socio-Technical Features of Systems of Systems | + | ***[[Socio-Technical Features of Systems of Systems]] |
***[[Capability Engineering]] | ***[[Capability Engineering]] | ||
+ | ***[[Mission Engineering]] | ||
+ | **[[Healthcare Systems Engineering]] | ||
+ | ***[[Overview of the Healthcare Sector]] | ||
+ | ***[[Systems Engineering in Healthcare Delivery]] | ||
+ | ***[[Systems Biology]] | ||
+ | ***[[Lean in Healthcare]] | ||
*[[Enabling Systems Engineering|Part 5: Enabling Systems Engineering]] | *[[Enabling Systems Engineering|Part 5: Enabling Systems Engineering]] | ||
**[[Enabling Businesses and Enterprises|Enabling Businesses and Enterprises]] | **[[Enabling Businesses and Enterprises|Enabling Businesses and Enterprises]] | ||
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***[[Culture]] | ***[[Culture]] | ||
**[[Enabling Teams|Enabling Teams]] | **[[Enabling Teams|Enabling Teams]] | ||
− | ***[[ | + | ***[[Team Capability]] |
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***[[Team Dynamics]] | ***[[Team Dynamics]] | ||
+ | ***[[Diversity, Equity, and Inclusion]] | ||
+ | ***[[Technical Leadership in Systems Engineering|Technical Leadership in SE]] | ||
**[[Enabling Individuals|Enabling Individuals]] | **[[Enabling Individuals|Enabling Individuals]] | ||
***[[Roles and Competencies]] | ***[[Roles and Competencies]] | ||
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***[[Ethical Behavior]] | ***[[Ethical Behavior]] | ||
*[[Related Disciplines|Part 6: Related Disciplines]] | *[[Related Disciplines|Part 6: Related Disciplines]] | ||
− | **[[Systems Engineering and Software Engineering | + | **[[Systems Engineering and Environmental Engineering]] |
+ | **[[Systems Engineering and Geospatial/Geodetic Engineering]] | ||
+ | ***[[Overview of Geospatial/Geodetic Engineering]] | ||
+ | ***[[Relationship between Systems Engineering and Geospatial/Geodetic Engineering]] | ||
+ | ***[[Further Insights into Geospatial/Geodetic Engineering]] | ||
+ | **[[Systems Engineering and Industrial Engineering]] | ||
+ | **[[Systems Engineering and Project Management]] | ||
+ | ***[[The Nature of Project Management]] | ||
+ | ***[[An Overview of the PMBOK® Guide]] | ||
+ | ***[[Relationships between Systems Engineering and Project Management]] | ||
+ | ***[[The Influence of Project Structure and Governance on Systems Engineering and Project Management Relationships]] | ||
+ | ***[[Procurement and Acquisition]] | ||
+ | ***[[Portfolio Management]] | ||
+ | **[[Systems Engineering and Software Engineering]] | ||
+ | ***[[Software Engineering in the Systems Engineering Life Cycle]] | ||
***[[The Nature of Software]] | ***[[The Nature of Software]] | ||
***[[An Overview of the SWEBOK Guide]] | ***[[An Overview of the SWEBOK Guide]] | ||
− | ***[[ | + | ***[[Key Points a Systems Engineer Needs to Know about Software Engineering]] |
− | ***[[ | + | ***[[Software Engineering Features - Models, Methods, Tools, Standards, and Metrics]] |
− | **[[Systems Engineering and | + | **[[Systems Engineering and Aerospace Engineering]] |
− | ** | + | **[[Systems Engineering and Electrical Engineering]] |
− | + | **[[Systems Engineering and Mechanical Engineering]] | |
− | + | **[[Systems Engineering and Civil Engineering]] | |
− | + | **[[Systems Engineering and Economics]] | |
− | **[[Systems Engineering and | + | **[[Systems Engineering and Enterprise IT]] |
− | **[[Systems Engineering and | + | **[[Systems Engineering and Quality Attributes]] |
− | **[[Systems Engineering and | ||
− | |||
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***[[Human Systems Integration]] | ***[[Human Systems Integration]] | ||
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***[[Manufacturability and Producibility]] | ***[[Manufacturability and Producibility]] | ||
− | ***[[Affordability]] | + | ***[[System Affordability]] |
− | ***[[ | + | ***[[System Hardware Assurance]] |
+ | ***[[System Reliability, Availability, and Maintainability]] | ||
+ | ***[[System Resilience]] | ||
+ | ***[[System Resistance to Electromagnetic Interference]] | ||
+ | ***[[System Safety]] | ||
+ | ***[[System Security]] | ||
*[[Systems Engineering Implementation Examples|Part 7: SE Implementation Examples]] | *[[Systems Engineering Implementation Examples|Part 7: SE Implementation Examples]] | ||
**[[Matrix of Implementation Examples]] | **[[Matrix of Implementation Examples]] | ||
− | **[[ | + | **[[Implementation Examples]] |
− | ***[[ | + | **Defense System Examples |
− | ***[[ | + | ***[[Submarine Warfare Federated Tactical Systems]] |
− | ***[[ | + | ***[[Virginia Class Submarine]] |
− | ***[[FBI Virtual Case File System | + | **Information System Examples |
− | ***[[ | + | ***[[Complex Adaptive Taxi Service Scheduler]] |
− | ***[[Next Generation Medical Infusion Pump | + | ***[[Successful Business Transformation within a Russian Information Technology Company|Successful Business Transformation]] |
− | **[[ | + | ***[[Federal Bureau of Investigation (FBI) Virtual Case File System|FBI Virtual Case File System]] |
− | ***[[ | + | **Management System Examples |
− | ***[[ | + | ***[[Project Management for a Complex Adaptive Operating System]] |
− | ***[[ | + | **Medical System Examples |
− | ***[[ | + | ***[[Next Generation Medical Infusion Pump]] |
− | ***[[FAA Advanced Automation System (AAS) | + | ***[[Medical Radiation]] |
− | ***[[Standard Korean Light Transit System | + | ***[[Design for Maintainability]] |
+ | **Space System Examples | ||
+ | ***[[Global Positioning System]] | ||
+ | ***[[Global Positioning System II]] | ||
+ | ***[[Russian Space Agency Project Management Systems]] | ||
+ | ***[[How Lack of Information Sharing Jeopardized the NASA/ESA Cassini/Huygens Mission to Saturn|Cassini/Huygens]] | ||
+ | ***[[Hubble Space Telescope]] | ||
+ | ***[[Applying a Model-Based Approach to Support Requirements Analysis on the Thirty-Meter Telescope|Applying MB Approach for 30 Meter Telescope]] | ||
+ | ***[[Miniature Seeker Technology Integration Spacecraft|MSTI Spacecraft]] | ||
+ | ***[[Apollo 1 Disaster]] | ||
+ | **Transportation System Examples | ||
+ | ***[[Denver Airport Baggage Handling System|Denver Baggage Handling]] | ||
+ | ***[[Federal Aviation Administration (FAA) Advanced Automation System (AAS)|FAA Advanced Automation System]] | ||
+ | ***[[Federal Aviation Administration (FAA) Next Generation Air Transportation System|FAA NextGen]] | ||
+ | ***[[UK West Coast Route Modernisation Project|UK Route Modernisation]] | ||
+ | ***[[Standard Korean Light Transit System|Korean Light Transit System]] | ||
+ | **Utilities Examples | ||
+ | ***[[Northwest Hydro System]] | ||
+ | ***[[Singapore Water Management]] | ||
+ | *[[Emerging Knowledge|Part 8: Emerging Knowledge]] | ||
+ | **[[Emerging Topics]] | ||
+ | ***[[Introduction to SE Transformation]] | ||
+ | ***[[Socio-technical Systems]] | ||
+ | ***[[Artificial Intelligence]] | ||
+ | ***[[Verification and Validation of Systems in Which AI is a Key Element]] | ||
+ | ***[[Transitioning Systems Engineering to a Model-based Discipline]] | ||
+ | ***[[Model-Based Systems Engineering Adoption Trends 2009-2018]] | ||
+ | ***[[Digital Engineering]] | ||
+ | ***[[Set-Based Design]] | ||
+ | ***[[System of Systems and Complexity]] | ||
+ | **[[Emerging Research]] | ||
}} | }} | ||
+ | </div> |
Revision as of 03:33, 11 May 2022
Outline
- Table of Contents
- Part 1: SEBoK Introduction
- Part 2: Foundations of Systems Engineering
- Systems Engineering Fundamentals
- The Nature of Systems
- Systems Science
- Systems Thinking
- Representing Systems with Models
- Systems Approach Applied to Engineered Systems
- Overview of the Systems Approach
- Engineered System Context
- Identifying and Understanding Problems and Opportunities
- Synthesizing Possible Solutions
- Analysis and Selection between Alternative Solutions
- Implementing and Proving a Solution
- Deploying, Using, and Sustaining Systems to Solve Problems
- Applying the Systems Approach
- Part 3: SE and Management
- Systems Engineering STEM Overview
- Model-Based Systems Engineering (MBSE)
- Systems Lifecycle Approaches
- System Lifecycle Models
- Systems Engineering Management
- Business and Mission Analysis
- Stakeholder Needs Definition
- System Architecture Definition
- Detailed Design Definition
- System Analysis
- System Realization
- System Implementation
- System Integration
- System Verification
- System Transition
- System Validation
- System Operation
- System Maintenance
- Logistics
- Service Life Management
- Systems Engineering Standards
- Part 4: Applications of Systems Engineering
- Part 5: Enabling Systems Engineering
- Part 6: Related Disciplines
- Systems Engineering and Environmental Engineering
- Systems Engineering and Geospatial/Geodetic Engineering
- Systems Engineering and Industrial Engineering
- Systems Engineering and Project Management
- Systems Engineering and Software Engineering
- Systems Engineering and Aerospace Engineering
- Systems Engineering and Electrical Engineering
- Systems Engineering and Mechanical Engineering
- Systems Engineering and Civil Engineering
- Systems Engineering and Economics
- Systems Engineering and Enterprise IT
- Systems Engineering and Quality Attributes
- Part 7: SE Implementation Examples
- Matrix of Implementation Examples
- Implementation Examples
- Defense System Examples
- Information System Examples
- Management System Examples
- Medical System Examples
- Space System Examples
- Transportation System Examples
- Utilities Examples
- Part 8: Emerging Knowledge
- Emerging Topics
- Introduction to SE Transformation
- Socio-technical Systems
- Artificial Intelligence
- Verification and Validation of Systems in Which AI is a Key Element
- Transitioning Systems Engineering to a Model-based Discipline
- Model-Based Systems Engineering Adoption Trends 2009-2018
- Digital Engineering
- Set-Based Design
- System of Systems and Complexity
- Emerging Research
- Emerging Topics