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Our Courses
Systems Engineering
Systems Engineering provides a broad overview of how systems engineering helps you develop complex projects that meet program objectives in an efficient way. You will learn how system architectures are developed and described, how to communicate the needs, requirements, and constraints throughout the project, how to optimize the design through trade studies, and how to know the system does what it’s supposed to in the end. By the end of this short course, you will have a high-level understanding of important systems engineering concepts that you can use as a foundation for future learning.
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Course by
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Self Paced
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2 hours
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English
Foundations of Healthcare Systems Engineering
Through dynamic video lectures and practical application questions, you will learn about the Foundations of Healthcare Systems Engineering. In this course you will learn about the current lack of synchronized, efficient, and integrated healthcare systems, which are some of the drivers for improvements to healthcare delivery. Also in this course, you will learn about the different types of systems and how they are translated to the healthcare field for appropriate systems engineering process applications, with exemplars.
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Course by
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Self Paced
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6 hours
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English
Requirements Writing
Welcome to "Requirements Writing". As the title indicates, over the next four weeks, we will be looking at the important task of writing of text-based requirement statements. The course takes you step by step through the rules for writing requirements statements in accordance with the "Guide for Writing Requirements" published by the International Council on Systems Engineering (INCOSE). This course welcomes anyone who wants to find out how to write requirements.
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Course by
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Self Paced
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4 hours
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English
The Need for Systems Engineering
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.
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Course by
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Self Paced
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23 hours
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English
Getting There and Going Beyond
Welcome to Course 2 - Getting There and Going Beyond. If you are here, you have successfully completed Course 1 (Our Place in the Cosmos) and are ready for more. There is so much more to learn in Course 2 with 40 learning objectives spread out over 5 weeks and 12 lessons. We will cover all the ways we explore space and near space from planes to rockets to satellites and humans. Week 1 - We will hit the trail with two lessons on Aeronautics. "Why is a aeronautics in a course about space?" you might be asking yourself. Well aeronautics is used in many aspects of space exploration.
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Course by
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Self Paced
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26 hours
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English
Applying Systems Engineering to the Design Process
In this course, you will learn what a systems engineer does. Following the conceptual foundations from The Need for Systems Engineering, you will perform requirements analysis and functional analysis on engineering programs. You will learn how to perform a trade study using a methodical, quantitative approach that is universal in application. This course also covers preparing design reviews, focusing on coordinating the inputs of multiple engineering disciplines into a cohesive description of the design approach.
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Course by
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Self Paced
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22 hours
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English
Systems Engineering and Program Management
This course teaches the learner how to apply Systems Engineering to the overall management of a complex program. This includes tailoring the systems engineering process to the specific needs of a particular program. The risk management process is described, including how to identify risks and develop a mitigation strategy. The key management tools are described along with how the scope of a program is defined and managed according to the terms of the contract.
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Course by
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Self Paced
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15 hours
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English
Introduction to Model-Based Systems Engineering
Strengthen your knowledge of Model-Based Systems Engineering, and discover an approach that organizations, companies, and governments are using to manage ever-changing demands. In this course, you will learn more about systems thinking, architecture, and models. You will examine the key benefits of MBSE. Through an in-depth look at MBSE as a solution, you will examine SysML methodologies and languages. No degree is required.
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Course by
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Self Paced
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16 hours
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English
MBSE: Model-Based Systems Engineering
This Model-Based Systems Engineering (MBSE) course and the Digital Thread courses featured earlier in this specialization bring together the concepts from across digital manufacturing and design, forming a vision in which the geometry of a product is just one way of describing it. MBSE is where the model resulting from the evolution of system requirements, design, analysis, verification and validation activities is the focus of design and manufacturing.
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Course by
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Self Paced
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21 hours
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English