Overview
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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.
Syllabus
- Systems Engineering: What Is It and Why Is It Important?
- Welcome the the first week of "The Need for Systems Engineering". This week, we will define what we mean when we say system, a system of systems, and systems engineering. We will draw from publicly available systems engineering handbooks used by NASA and the Department of Defense (DoD) to identify the role system engineering serves in complex engineering processes, the interdisciplinary role of a systems engineer, and the lifecycle of a system.
- Systems Engineering's Role in Defining a System
- In this module, we will examine how complex system design program is initiated based on establishing a need. It is best to study how the needed capability is currently provided and why this leaves a capability gap. We will then proceed with defining the system by writing requirements as well as identifying its functions.
- Systems Engineering Lessons Learned
- In this module, we will examine two space craft accidents and how Systems Engineering could have potentially been used to avoid the mishap.
- Test
- There is an important symbiotic relationship between Systems Engineering and Test Engineering. Those two disciplines often report to the same functional manager because they are so tightly coupled. This module will introduce some important test considerations.
- Modeling & Simulation and MBSE
- In this module, we will reflect back on the topics that have been covered during the first Module of this Specialization on Systems Engineering by highlighting a few of the main concepts. I will introduce you to the topic of Model Based Systems Engineering (MBSE) and conclude by explaining how Systems Engineering is put to use in a large, complex design effort.
Taught by
William Van Atten