The Master of Science in Electrical Engineering, Plan B creates capable professionals with depth and breadth of knowledge, as well as the skills and mindset to continue to evolve and grow in a constantly changing high-tech environment. Offering a highly customizable curriculum, this program specializes in the following focus areas: biomedical engineering, communications and signal processing, computer engineering, controls and robotics, electromagnetics and remote sensing, lasers and photonics.

Interested applicants should refer to CSU’s Graduate and Professional Bulletin and the Electrical and Computer Engineering website

Program Learning Objectives

  1. Identify, formulate, and solve advanced engineering problems using fundamental electrical engineering principles, methodologies, and tools.
  2. Apply in-depth knowledge and creativity in a variety of contexts to achieve a significant technical objective.
  3. Demonstrate effective oral and written communication to convey technical concepts to both engineers and non-engineers.
  4. Demonstrate professional behavior and understand the ethical, economic, environmental, and societal impacts of their work.

Institutional Learning Objectives

Program Learning Objectives (PLOs) align with and support the University’s Institutional Learning Objectives (ILOs), which are Creativity, Reasoning, Communication, Responsibility, and Collaboration.

Creativity: PLOs 1 and 2 ensure that students can creatively apply their disciplinary expertise to solve complex problems using fundamental electrical engineering principles and methods.

Reasoning: PLOs 1 and 2 ensure that students can apply reasoning skills to solve complex problems using fundamental electrical engineering principles and methods.

Communication: PLO 3 ensures that students demonstrate effective communication to a variety of audiences.

Responsibility: PLO 4 ensures that students exhibit responsible behavior according to professional standards.

Collaboration: PLOs 3 and 4 ensure that students demonstrate professional skills to engage collaboratively to solve problems in a societal context.

Effective Fall 2024

Select one group from the following:
Group A: PORTFOLIO
Regular Coursework (see Approved Regular Course list below) 1,2,3,432
Portfolio Requirement 5
Group B: PROJECT
Regular Coursework (see Approved Regular Course list below) 1,2,3,427
ECE 695Independent Study 63
Program Total Credits:30-32

A minimum of 30 credits are required to complete this program.

Approved Regular Course List

Any regular course approved by advisor and graduate committeeVar.
CS 4XX Any CS course at the 400-level (excluding courses numbered 482-499)4
CS 5XX Any CS course at the 500-level (excluding courses numbered 582-599)4
CS 6XX Any CS course at the 600-level (excluding courses numbered 682-699)4
ECE 4XX Any ECE course at the 400-level (excluding courses numbered 482-499)Var.
ECE 5XX Any ECE course at the 500-level (excluding courses numbered 582-599)Var.
ECE 6XX Any ECE course at the 600-level (excluding courses numbered 682-699)Var.
MATH 4XX Any MATH course at the 400-level (excluding courses numbered 482-499)Var.
MATH 5XX Any MATH course at the 500-level (excluding courses numbered 582-599)Var.
MATH 6XX Any MATH course at the 600-level (excluding courses numbered 682-699)Var.
PH 4XX Any PH course at the 400-level (excluding courses numbered 482-499)Var.
PH 5XX Any PH course at the 500-level (excluding courses numbered 582-599)Var.
PH 6XX Any PH course at the 600-level (excluding courses numbered 682-699)Var.
BIOM 533/CIVE 533Biomolecular Tools for Engineers3
ENGR 510Engineering Optimization: Method/Application3
ENGR 520Engineering Decision Support/Expert Systems3
ENGR 531Engineering Risk Analysis3
ENGR 533Spaceflight and Biological Systems3
ENGR 665Stochastic Simulation in Engr Applications3
GRAD 510Fundamentals of High Performance Computing3
GRAD 530Introduction to Graduate Research1
GRAD 544Ethical Conduct of Research1
GRAD 550STEM Communication1
MATH 550/ENGR 550Numerical Methods in Science and Engineering3
MATH 569ALinear Algebra for Data Science: Matrices and Vectors Spaces1
MATH 569BLinear Algebra for Data Science: Geometric Techniques for Data Reduction1
MATH 569CLinear Algebra for Data Science: Matrix Factorizations and Transformations1
MATH 569DLinear Algebra for Data Science: Theoretical Foundations1
NSCI 575/GRAD 575Ethical Issues in Big Data Research1
MECH 502Advanced/Additive Manufacturing Engineering3
MECH 513Simulation Modeling and Experimentation3
MECH 524Principles of Dynamics3
MECH 529Advanced Mechanical Systems3
MECH 531/BIOM 531Materials Engineering3
MECH 564Fundamentals of Robot Mechanics and Controls3
MECH 570/BIOM 570Bioengineering3
MECH 575Solar and Alternative Energies3
MECH 630Biologically Inspired Robotics3
STAA 561Probability with Applications2
SYSE 530Overview of Systems Engineering Processes3
SYSE 532/ECE 532Dynamics of Complex Engineering Systems3
SYSE 536Space Mission Analysis and Design3
SYSE 541Engineering Data Design and Visualization3
SYSE 549Secure Vehicle and Industrial Networking3
SYSE 567Systems Engineering Architecture3
SYSE 569Cybersecurity Awareness for Systems Engineers3
SYSE 571Analytics in Systems Engineering3
SYSE 711Ethics in Systems Engineering1
1

Courses not accepted as regular include all courses ending in the range -82 through -99.

2

A maximum of 8 credit hours of 400-level undergraduate coursework will be counted to the degree. Remaining credits must be in 500-level or higher courses.

3

A maximum of 12 credit hours outside of the ECE department will be counted to the degree.

4

Electrical Engineering students can choose from a wide range of topic areas for their courses. See the “Recommended Courses by Topic Area” document and the “Courses” link located on the following webpage: https://www.engr.colostate.edu/ece/graduates/admissions/

5

ECE MS students will complete a Portfolio by attending five research-based Seminars offered or approved by Electrical and Computer Engineering. Some examples of these Seminars include, but are not limited to:

  • Talks by visiting engineers, scientists, that are part of our ECE Seminar Series
  • Attending a peer’s MS Thesis defense or Ph.D.  defense or Ph.D. exam
  • For distance students, viewing IEEE (Institute of  Electrical and Electronics Engineers) research based webinars available through their professional societies on their website.

Their Portfolio Final Exam requires them to answer two questions for each of the five seminars. These questions were designed by our faculty to ask the student to connect the content of the seminars to principles they learned in their MS courses. The Portfolio is graded by an ECE faculty member and counts as the student’s final exam.

6

Permission from the ECE department is required to register for ECE 695.

For more information, please visit Requirements for All Graduate Degrees in the Graduate and Professional Bulletin.

Summary of Procedures for the Master's and Doctoral Degrees

NOTE:  Each semester the Graduate School publishes a schedule of deadlines. Deadlines are available on the Graduate School website. Students should consult this schedule whenever they approach important steps in their careers.

Forms are available online.

Step Due Date
1. Application for admission (online) Six months before first registration
2. Diagnostic examination when required Before first registration
3. Appointment of advisor Before first registration
4. Selection of graduate committee Before the time of fourth regular semester registration
5. Filing of program of study (GS Form 6) Before the time of fourth regular semester registration
6. Preliminary examination (Ph.D. and PD) Two terms prior to final examination
7. Report of preliminary examination (GS Form 16) - (Ph.D. and PD) Within two working days after results are known
8. Changes in committee (GS Form 9A) When change is made
9. Application for Graduation (GS Form 25) Refer to published deadlines from the Graduate School Website
9a. Reapplication for Graduation (online) Failure to graduate requires Reapplication for Graduation (online) for the next time term for which you are applying
10. Submit thesis or dissertation to committee At least two weeks prior to the examination or at the discretion of the graduate committee
11. Final examination Refer to published deadlines from the Graduate School Website
12. Report of final examination (GS Form 24) Within two working days after results are known; refer to published deadlines from the Graduate School website
13. Submit a signed Thesis/Dissertation Submission Form (GS Form 30) to the Graduate School and Submit the Survey of Earned Doctorates (Ph.D. only) prior to submitting the electronic thesis/dissertation Refer to published deadlines from the Graduate School website.
14. Submit the thesis/dissertation electronically Refer to published deadlines from the Graduate School website
15. Graduation Ceremony information is available from the Graduate School website