

University of Colorado Boulder - The Need for Systems Engineering
- Offered byCoursera
- Public/Government Institute
The Need for Systems Engineering at Coursera Overview
Duration | 22 hours |
Total fee | Free |
Mode of learning | Online |
Difficulty level | Beginner |
Official Website | Explore Free Course |
Credential | Certificate |
The Need for Systems Engineering at Coursera Highlights
- Flexible deadlines Reset deadlines in accordance to your schedule.
- Shareable Certificate Earn a Certificate upon completion
- 100% online Start instantly and learn at your own schedule.
- Coursera Labs Includes hands on learning projects. Learn more about Coursera Labs External Link
- Beginner Level No previous background is required.
- Approx. 22 hours to complete
- English Subtitles: English
The Need for Systems Engineering at Coursera Course details
- Systems engineering is an interdisciplinary approach to designing, realizing, and managing complex systems. In this course, you will be introduced to principles of systems engineering and its importance to the development of complex systems. You will learn to identify and define systems, manage their complexity, and describe their life cycle. The course uses real-world engineering examples to address how the systems engineering approach can address challenges.
- This course can be taken for academic credit as part of CU Boulder’s Master of Engineering in Engineering Management (ME-EM) degree offered on the Coursera platform. The ME-EM is designed to help engineers, scientists, and technical professionals move into leadership and management roles in the engineering and technical sectors. With performance-based admissions and no application process, the ME-EM is ideal for individuals with a broad range of undergraduate education and/or professional experience. Learn more about the ME-EM program at https://www.coursera.org/degrees/me-engineering-management-boulder.
The Need for Systems Engineering at Coursera Curriculum
Systems Engineering: What Is It and Why Is It Important?
Introduction to the Specialization and Instructor
Definition of a System
Definition of a System of Systems (SoS)
Definition of Systems Engineering
Purpose of Systems Engineering
The Systems Engineering Lifecycle
Complexity, Adjacency, and the Environment
System of Systems (SoS) Engineering
The Person vs. The Process
Welcome and Where to Find Help
NASA Systems Engineering Handbook
DoD Systems Engineering Guidebook
Concepts Check
Concepts Check
Concepts Check
Systems Engineering's Role in Defining a System
Defining the Need for a System
James Webb Space Telescope
Requirements Defined
Characteristics of Good Requirements
Functions
Functional Analysis
Functional Block Diagrams
GAO Report
Matlab Tech Talk: Requirements
INCOSE SEBoK
Functional Architecture
Key Points
Systems Engineering Lessons Learned
Space Shuttle Columbia Accident Introduction
Mars Climate Orbiter Key Take Aways
Columbia Accident Report
Mars Climate Orbiter Mishap
Key Take Aways
Key Take Aways
Test
Introduction to Test
Types of Testing
Test Planning
Chernobyl Nuclear Accident Introduction
Systems Engineering Lessons Learned from Chernobyl
What Happened at Chernobyl?
NASA Systems Engineering Handbook
INCOSE Systems Eng BoK
Key Take Aways
Key Take Aways
Modeling & Simulation and MBSE
Role of Modeling and Simulation
MBSE
The F-35 Lightning II
What is Systems Engineering?
MBSE Webinar
F-35 Program Brief
Key Take Aways