Difference between revisions of "Outline"
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***[[Overview of Geospatial/Geodetic Engineering]] | ***[[Overview of Geospatial/Geodetic Engineering]] | ||
***[[Relationship between Systems Engineering and 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 Industrial Engineering]] | ||
**[[Systems Engineering and Project Management]] | **[[Systems Engineering and Project Management]] | ||
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***[[Key Points a Systems Engineer Needs to Know about Software Engineering]] | ***[[Key Points a Systems Engineer Needs to Know about Software Engineering]] | ||
***[[Software Engineering Features - Models, Methods, Tools, Standards, and Metrics]] | ***[[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]] | ||
**[[Systems Engineering and Quality Attributes]] | **[[Systems Engineering and Quality Attributes]] | ||
***[[Human Systems Integration]] | ***[[Human Systems Integration]] |
Revision as of 03:27, 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
- Stakeholder Requirements Definition
- System Architecture Definition
- Detailed Design Definition
- System Analysis
- System Realization
- System Implementation
- System Integration
- System Verification
- System Transition
- System Validation
- System Operation
- 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