Master's of Engineering (M.E.) - Systems Engineering

Watch: Systems engineering faculty members Jeremy Daily and Erika Miller talk about the online learning experience.

Video transcript

Systems engineering is a very holistic approach really to all engineering. Systems Engineering is kind of a collection of disciplines that really examine complex systems through their entire lifespan.

Students gain a holistic view of the complex systems and how to both design, work with, test, and evaluate them. We’ve been integrating online since the very beginning of our program.

So we present our lectures live to students remote so that they can engage with their peers and the professor in real time. And we also make that available for those that can’t attend live. And then we also have in-person students sitting in the classroom as well. In systems engineering, we try to cater to all of our students and we even are developing remotely accessible lab components so students can actually get the benefit of having a hands-on experience.

We do our best to try to make this online program as integrated as possible. If you’re a prospective student, I would want you to consider all of your options. And when you do that, you’ll see that systems engineering also does that. So by examining all of your options, you really get an idea of where you can shine as you pursue your career.

A student should enroll in our program if they want to kind of formalize their systems approach thinking to problems in their career, what they’re currently working on, or where their career path might take them. So we really teach them tools that can be broadly applied to a variety of engineering disciplines.

The tools that we provide give you the ability to pursue your individual dreams and desires.

Program Summary

Fastest path to a graduate degree

Our Master of Engineering program produces graduates who can design and manage complex multidisciplinary engineering systems.

The applied focus in courses builds skills that can be utilized immediately in current projects and prepares students for future career opportunities.

Most full-time students (9+ credits per semester) complete the program within one to two years. Part-time students (3-6 credits per semester) typically finish within four to five years.

A thesis is not required to complete the degree, but you can complete a significant capstone project (SYSE 695).

A program tailored for students who want to implement systems thinking in their careers and plan to continue on into industry.

You can earn your M.E. online or on-campus.
Visit CSU Online to learn more about completing your M.E. online.

Accessible education for working professionals

M.E. Curriculum (30 credits)

Course descriptions and expected offerings are available on the courses page.

Core Courses (12 credits)

Take the following four courses:

SYSE 501 – Foundations of Systems Engineering (3 cr.)
ENGR 502 – Engineering Project and Program Management (3 cr.)
SYSE 530 – Overview of Systems Engineering Processes (3 cr.)
ENGR 531 – Engineering Risk & Reliability Analysis (3 cr.)

In-Depth Courses (9 credits)

Choose 9 credits from the following:

SYSE 505 – Systems Thinking for the Real World (3 cr.)

SYSE 512 – Systems Sensing and Imaging Analysis (3 cr.)

SYSE/ECE 532 – Dynamics of Complex Engineering Systems (3 cr.)

SYSE 534 – Human Systems Integration (3 cr.)

SYSE 536 – Space Mission Analysis and Design (3 cr.)

SYSE 541 – Engineering Data Design and Visualization (3 cr.)

SYSE 544 – AR/VR Environmental Realism for SE (3 cr.)

SYSE 545 – AR/VR Systems Development (3 cr.)

SYSE 548 – Security Engineering for SE (3 cr.)

SYSE 549 – Secure Vehicle and Industrial Networking (3 cr.)

SYSE 555 – Transitions in Energy Systems (3 cr.)

SYSE 567 – Systems Engineering Architecture (3 cr.)

SYSE 569 – Cybersecurity Awareness for Systems Engineers (3 cr.)

SYSE 571 – Analytics in Systems Engineering (3 cr.)

SYSE 573 – Cost Optimization for Systems Engineers (3 cr.)

SYSE 602 – Systems Requirements Engineering (3 cr.)

SYSE 603 – Introduction to Systems Test and Evaluation (3 cr.)

SYSE 667 – Advanced Model-Based Systems Engineering (3 cr.)

ENGR 510 – Engineering Optimization: Method/Application (3 cr.)

ENGR 520 – Engineering Decision Support/Expert Systems (3 cr.)

ENGR 525 – Intellectual Property and Invention Systems (3 cr.)

ENGR 533 – Spaceflight and Biological Systems (3 cr.)

ENGR 535 – Modeling Human Systems Behavior (3 cr.)

ENGR 540 – Design & Analysis of Engineering Experiments (3 cr.)

ENGR 570 – Coupled Electromechanical Systems (3 cr.)

MECH 513 – Simulation Modeling and Experimentation (3 cr.)

Other experimental courses as offered; check the SE Courses Page for all available depth courses.

Electives (6 credits)

You may choose from the SE Suggested Elective list. This list is not exhaustive. If you find a graduate-level technical course that pertains to your professional goals and/or the systems engineering field, please contact the SE Department to check if it may apply as an elective.

A maximum of 6 credit hours at the 400 level is permitted. The remaining credits must be at the 500 level or above

Independent Study Capstone (3 credits)

SYSE 695 – Independent Study (3 cr.)

Another SE course approved by the Program Advisor

M.E. Documents and Forms

Degree Sheet

Other Resources

Systems Engineering Graduate Student Handbook

Download Here

Admission Deadlines

Fall admission

Application materials due by July 1

Spring admission

Application materials due by November 1

Systems Engineering Master's of Engineering (M.E.)