Difference between revisions of "SEBoK:Books/Guide to the Systems Engineering Body of Knowledge (SEBoK)"
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== Guide to the Systems Engineering Body of Knowledge == | == Guide to the Systems Engineering Body of Knowledge == | ||
− | === version 2. | + | === version 2.4 === |
;Front Matter | ;Front Matter | ||
:[[Letter from the Editor]] | :[[Letter from the Editor]] | ||
Line 26: | Line 26: | ||
:[[Brief History of Systems Engineering]] | :[[Brief History of Systems Engineering]] | ||
:[[Systems Engineering Principles]] | :[[Systems Engineering Principles]] | ||
+ | :[[Systems Engineering Heuristics]] | ||
:[[Economic Value of Systems Engineering]] | :[[Economic Value of Systems Engineering]] | ||
:[[Systems Engineering: Historic and Future Challenges]] | :[[Systems Engineering: Historic and Future Challenges]] | ||
Line 181: | Line 182: | ||
:[[Team Capability]] | :[[Team Capability]] | ||
:[[Team Dynamics]] | :[[Team Dynamics]] | ||
+ | :[[Diversity, Equity, and Inclusion]] | ||
:[[Technical Leadership in Systems Engineering]] | :[[Technical Leadership in Systems Engineering]] | ||
;Knowledge Area: Enabling Individuals | ;Knowledge Area: Enabling Individuals | ||
Line 189: | Line 191: | ||
;Part 6: Related Disciplines | ;Part 6: Related Disciplines | ||
:[[Related Disciplines]] | :[[Related Disciplines]] | ||
− | ; | + | ;Systems Engineering and Environmental Engineering |
− | :[[Systems Engineering and | + | :[[Systems Engineering and Environmental Engineering]] |
− | + | ;Systems Engineering and Geospatial/Geodetic Engineering | |
− | :[[ | + | :[[Systems Engineering and Geospatial/Geodetic Engineering]] |
− | :[[ | + | :[[Overview of Geospatial/Geodetic Engineering]] |
− | :[[ | + | :[[Relationship between Systems Engineering and Geospatial/Geodetic Engineering]] |
− | :[[ | + | ;Systems Engineering and Industrial Engineering |
− | ; | + | :[[Systems Engineering and Industrial Engineering]] |
+ | ;Systems Engineering and Project Management | ||
:[[Systems Engineering and Project Management]] | :[[Systems Engineering and Project Management]] | ||
:[[The Nature of Project Management]] | :[[The Nature of Project Management]] | ||
Line 204: | Line 207: | ||
:[[Procurement and Acquisition]] | :[[Procurement and Acquisition]] | ||
:[[Portfolio Management]] | :[[Portfolio Management]] | ||
− | ; | + | ;Systems Engineering and Software Engineering |
− | :[[Systems Engineering | + | :[[Systems Engineering and Software Engineering]] |
− | :[[ | + | :[[Software Engineering in the Systems Engineering Life Cycle]] |
+ | :[[The Nature of Software]] | ||
+ | :[[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 Quality Attributes | ||
+ | :[[Systems Engineering and Quality Attributes]] | ||
:[[Human Systems Integration]] | :[[Human Systems Integration]] | ||
− | :[[ | + | :[[Manufacturability and Producibility]] |
− | :[[ | + | :[[System Affordability]] |
− | :[[ | + | :[[System Hardware Assurance]] |
+ | :[[System Reliability, Availability, and Maintainability]] | ||
:[[System Resilience]] | :[[System Resilience]] | ||
− | :[[ | + | :[[System Resistance to Electromagnetic Interference]] |
− | :[[ | + | :[[System Safety]] |
− | :[[ | + | :[[System Security]] |
;Part 7: Systems Engineering Implementation Examples | ;Part 7: Systems Engineering Implementation Examples | ||
:[[Systems Engineering Implementation Examples]] | :[[Systems Engineering Implementation Examples]] | ||
Line 257: | Line 267: | ||
:[[Emerging Topics]] | :[[Emerging Topics]] | ||
:[[Introduction to SE Transformation]] | :[[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]] | :[[Transitioning Systems Engineering to a Model-based Discipline]] | ||
+ | :[[Model-Based Systems Engineering Adoption Trends 2009-2018]] | ||
:[[Digital Engineering]] | :[[Digital Engineering]] | ||
:[[Set-Based Design]] | :[[Set-Based Design]] | ||
− | |||
;Emerging Research | ;Emerging Research | ||
:[[Emerging Research]] | :[[Emerging Research]] | ||
+ | |||
[[Category:Books|Guide to the Systems Engineering Body of Knowledge (SEBoK)]] | [[Category:Books|Guide to the Systems Engineering Body of Knowledge (SEBoK)]] |
Revision as of 21:51, 19 May 2021
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Guide to the Systems Engineering Body of Knowledge
version 2.4
- Front Matter
- Letter from the Editor
- BKCASE Governance and Editorial Board
- Acknowledgements and Release History
- Cite the SEBoK
- Bkcase Wiki:Copyright
- Table of Contents
- SEBoK Table of Contents
- Part 1
- SEBoK Introduction
- SEBoK Introduction
- Introduction to the SEBoK
- Knowledge Area
- Introduction to the SEBoK
- Scope of the SEBoK
- Structure of the SEBoK
- Knowledge Area
- Introduction to Systems Engineering
- Introduction to Systems Engineering
- Systems Engineering Overview
- Brief History of Systems Engineering
- Systems Engineering Principles
- Systems Engineering Heuristics
- Economic Value of Systems Engineering
- Systems Engineering: Historic and Future Challenges
- Systems Engineering and Other Disciplines
- Systems Engineering Core Concepts
- Knowledge Area
- SEBoK Users and Uses
- SEBoK Users and Uses
- Use Case 0: Systems Engineering Novices
- Use Case 1: Practicing Systems Engineers
- Use Case 2: Other Engineers
- Use Case 3: Customers of Systems Engineering
- Use Case 4: Educators and Researchers
- Use Case 5: General Managers
- Part 2
- Foundations of Systems Engineering
- Foundations of Systems Engineering
- Knowledge Area
- Systems Fundamentals
- Systems Fundamentals
- Introduction to System Fundamentals
- Types of Systems
- Complexity
- Emergence
- Fundamentals for Future Systems Engineering
- Knowledge Area
- Systems Approach Applied to Engineered Systems
- 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
- Knowledge Area
- Systems Science
- Systems Science
- History of Systems Science
- Systems Approaches
- Cycles and the Cyclic Nature of Systems
- Knowledge Area
- Systems Thinking
- Systems Thinking
- What is Systems Thinking?
- Concepts of Systems Thinking
- Principles of Systems Thinking
- Patterns of Systems Thinking
- Knowledge Area
- Representing Systems with Models
- Representing Systems with Models
- What is a Model?
- Why Model?
- Types of Models
- System Modeling Concepts
- Integrating Supporting Aspects into System Models
- Modeling Standards
- Part 3
- Systems Engineering and Management
- Knowledge Area
- Introduction to Life Cycle Processes
- Introduction to Life Cycle Processes
- Generic Life Cycle Model
- Applying Life Cycle Processes
- Life Cycle Processes and Enterprise Need
- Knowledge Area
- Life Cycle Models
- Life Cycle Models
- System Life Cycle Process Drivers and Choices
- System Life Cycle Process Models: Vee
- System Life Cycle Process Models: Iterative
- Integration of Process and Product Models
- Lean Engineering
- Knowledge Area
- Concept Definition
- Concept Definition
- Business or Mission Analysis
- Stakeholder Needs and Requirements
- Knowledge Area
- System Definition
- System Definition
- System Requirements
- System Architecture
- Logical Architecture Model Development
- Physical Architecture Model Development
- System Design
- System Analysis
- Knowledge Area
- System Realization
- System Realization
- System Implementation
- System Integration
- System Verification
- System Validation
- Knowledge Area
- System Deployment and Use
- System Deployment and Use
- System Deployment
- Operation of the System
- System Maintenance
- Logistics
- Knowledge Area
- Systems Engineering Management
- Systems Engineering Management
- Planning
- Assessment and Control
- Risk Management
- Measurement
- Decision Management
- Configuration Management
- Information Management
- Quality Management
- Knowledge Area
- Product and Service Life Management
- Product and Service Life Management
- Service Life Extension
- Capability Updates, Upgrades, and Modernization
- Disposal and Retirement
- Knowledge Area
- Systems Engineering Standards
- Systems Engineering Standards
- Relevant Standards
- Alignment and Comparison of the Standards
- Application of Systems Engineering Standards
- Part 4
- Applications of Systems Engineering
- Knowledge Area
- Product Systems Engineering
- Product Systems Engineering
- Product Systems Engineering Background
- Product as a System Fundamentals
- Business Activities Related to Product Systems Engineering
- Product Systems Engineering Key Aspects
- Product Systems Engineering Special Activities
- Knowledge Area
- Service Systems Engineering
- Service Systems Engineering
- Service Systems Background
- Fundamentals of Services
- Properties of Services
- Scope of Service Systems Engineering
- Value of Service Systems Engineering
- Service Systems Engineering Stages
- Knowledge Area
- Enterprise Systems Engineering
- Enterprise Systems Engineering
- Enterprise Systems Engineering Background
- The Enterprise as a System
- Related Business Activities
- Enterprise Systems Engineering Key Concepts
- Enterprise Systems Engineering Process Activities
- Enterprise Capability Management
- Knowledge Area
- Systems of Systems (SoS)
- Systems of Systems (SoS)
- Architecting Approaches for Systems of Systems
- Socio-Technical Features of Systems of Systems
- Capability Engineering
- Knowledge Area
- Healthcare Systems Engineering
- Healthcare Systems Engineering
- Overview of the Healthcare Sector
- Systems Engineering in Healthcare Delivery
- Systems Biology
- Lean in Healthcare
- Part 5
- Enabling Systems Engineering
- Enabling Systems Engineering
- Knowledge Area
- Enabling Businesses and Enterprises
- Enabling Businesses and Enterprises
- Systems Engineering Organizational Strategy
- Determining Needed Systems Engineering Capabilities in Businesses and Enterprises
- Organizing Business and Enterprises to Perform Systems Engineering
- Assessing Systems Engineering Performance of Business and Enterprises
- Developing Systems Engineering Capabilities within Businesses and Enterprises
- Culture
- Knowledge Area
- Enabling Teams
- Team Capability
- Team Dynamics
- Diversity, Equity, and Inclusion
- Technical Leadership in Systems Engineering
- Knowledge Area
- Enabling Individuals
- Roles and Competencies
- Assessing Individuals
- Developing Individuals
- Ethical Behavior
- Part 6
- Related Disciplines
- Related Disciplines
- Systems Engineering and Environmental Engineering
- Systems Engineering and Environmental Engineering
- Systems Engineering and Geospatial/Geodetic Engineering
- Systems Engineering and Geospatial/Geodetic Engineering
- Overview of Geospatial/Geodetic Engineering
- Relationship between Systems Engineering and Geospatial/Geodetic Engineering
- Systems Engineering and Industrial Engineering
- Systems Engineering and Industrial Engineering
- Systems Engineering and Project Management
- 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
- Systems Engineering and Software Engineering
- Software Engineering in the Systems Engineering Life Cycle
- The Nature of Software
- 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 Quality Attributes
- Systems Engineering and Quality Attributes
- Human Systems Integration
- Manufacturability and Producibility
- System Affordability
- System Hardware Assurance
- System Reliability, Availability, and Maintainability
- System Resilience
- System Resistance to Electromagnetic Interference
- System Safety
- System Security
- Part 7
- Systems Engineering Implementation Examples
- Systems Engineering Implementation Examples
- Matrix of Implementation Examples
- Matrix of Implementation Examples
- Implementation Examples
- Implementation Examples
- Defense System Examples
- Submarine Warfare Federated Tactical Systems
- Virginia Class Submarine
- Information System Examples
- Complex Adaptive Taxi Service Scheduler
- Successful Business Transformation within a Russian Information Technology Company
- FBI Virtual Case File System
- Management System Examples
- Project Management for a Complex Adaptive Operating System
- Medical System Examples
- Next Generation Medical Infusion Pump
- Medical Radiation
- Design for Maintainability
- Space System Examples
- Global Positioning System Case Study
- Global Positioning System Case Study II
- Russian Space Agency Project Management Systems
- How Lack of Information Sharing Jeopardized the NASA/ESA Cassini/Huygens Mission to Saturn
- Hubble Space Telescope
- Applying a Model-Based Approach to Support Requirements Analysis on the Thirty-Meter Telescope
- Miniature Seeker Technology Integration Spacecraft
- Apollo 1 Disaster
- Transportation System Examples
- Denver Airport Baggage Handling System
- FAA Advanced Automation System (AAS)
- Federal Aviation Administration Next Generation Air Transportation System
- UK West Coast Route Modernisation Project
- Standard Korean Light Transit System Vignette
- Utilities Examples
- Northwest Hydro System
- Singapore Water Management
- Part 8
- Emerging Knowledge
- Emerging Knowledge
- Emerging Topics
- 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
- Emerging Research
- Emerging Research