Difference between revisions of "Outline"

Outline

• Table of Contents
• Part 1: SEBoK Introduction
  • Introduction to the SEBoK
    • Scope of the SEBoK
    • Structure of the SEBoK
  • Introduction to Systems Engineering
    • Systems Engineering Overview
    • Economic Value of Systems Engineering
    • A Brief History of Systems Engineering
    • Systems Engineering: Historic and Future Challenges
    • Systems Engineering and Other Disciplines
    • Fundamentals for Future Systems Engineering
  • 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
  • Systems Engineering Fundamentals
    • Introduction to Systems Engineering Fundamentals
    • Systems Engineering Core Concepts
    • Systems Engineering Principles
    • Systems Engineering Heuristics
  • The Nature of Systems
    • Types of Systems
    • Cycles and the Cyclic Nature of Systems
  • Systems Science
    • History of Systems Science
    • Systems Approaches
    • Complexity
    • Emergence
  • Systems Thinking
    • What is Systems Thinking?
    • Concepts of Systems Thinking
    • Principles of Systems Thinking
    • Patterns of Systems Thinking
  • Representing Systems with Models
    • What is a Model?
    • Why Model?
    • Types of Models
    • System Modeling Concepts
    • Integrating Supporting Aspects into System Models
    • Modeling Standards
  • 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
    • Generic Life Cycle Model
    • 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
    • Process Integration
    • Lean Engineering
  • Systems Engineering Management
    • Technical Planning
    • Assessment and Control
    • Decision Management
    • Risk Management
    • Configuration Management
    • Information Management
    • Quality Management
    • Measurement
  • Business and Mission Analysis
    • Business or Mission Analysis
  • Stakeholder Needs Definition
    • Stakeholder Requirements Definition
  • System Architecture Definition
    • 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
    • Capability Updates, Upgrades, and Modernization
    • System Disposal and Retirement
  • Systems Engineering Standards
    • Relevant Standards
    • Alignment and Comparison of Systems Engineering Standards
    • Application of Systems Engineering Standards
• Part 4: Applications of Systems Engineering
  • Product Systems Engineering
    • Product SE Background
    • Product as a System Fundamentals
    • Relate Business Activities
    • Product SE Key Aspects
    • Product SE Special Activities
  • 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
  • Enterprise Systems Engineering
    • Enterprise SE Background
    • The Enterprise as a System
    • Related Business Activities
    • Enterprise SE Key Concepts
    • Enterprise SE Process Activities
    • Enterprise Capability Management
  • Systems of Systems (SoS)
    • Architecting Approaches for Systems of Systems
    • Socio-Technical Features of Systems of Systems
    • Capability Engineering
    • Mission 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 Businesses and Enterprises
    • SE Organizational Strategy
    • Determining Needed Capabilities
    • Organizing Business to Perform SE
    • Assessing SE Performance
    • Developing SE Capabilities
    • Culture
  • Enabling Teams
    • Team Capability
    • Team Dynamics
    • Diversity, Equity, and Inclusion
    • Technical Leadership in SE
  • Enabling Individuals
    • Roles and Competencies
    • Assessing Individuals
    • Developing Individuals
    • Ethical Behavior
• Part 6: Related Disciplines
  • 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
    • 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 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 New article
  • Systems Engineering and Quality Attributes
    • A Framework for Viewing Quality Attributes from the Lens of Loss
    • Human Systems Integration
    • Manufacturability and Producibility
    • System Adaptability New article
    • System Affordability
    • System Hardware Assurance
    • System Reliability, Availability, and Maintainability
    • System Resilience
    • System Resistance to Electromagnetic Interference
    • System Safety
    • System Security
• Part 7: SE Implementation Examples
  • Matrix of 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
    • 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
    • Global Positioning System II
    • Russian Space Agency Project Management Systems
    • Cassini/Huygens
    • Hubble Space Telescope
    • Applying MB Approach for 30 Meter Telescope
    • MSTI Spacecraft
    • Apollo 1 Disaster
  • Transportation System Examples
    • Denver Baggage Handling
    • FAA Advanced Automation System
    • FAA NextGen
    • UK Route Modernisation
    • Korean Light Transit System
  • Utilities Examples
    • Northwest Hydro System
    • Singapore Water Management
• 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