One-Year Master's Degree Programs in Electrical Engineering
A handful of schools have master's degree programs in electrical engineering that allow students to earn a degree in just a year. Read on for more information on the types of courses these programs offer and what career opportunities graduates can pursue.
Curricula for One-Year Master's Degree Programs in Electrical Engineering
Despite the shortened timeframe, one-year master's degree programs still contain rigorous course loads that cover a range of topics in just 12 months. The multidisciplinary nature of the electrical engineering field means students can expect to encounter topics in computer science, physics, statistics, and more.
This offering introduces students to topics in machine learning and data mining and how these areas are used in the field of electrical and computer engineering. Students in this course may learn how to use algorithms to conduct experiments on a variety of data formats, including text, audio, and images. Other concepts commonly taught in this class include regression, association rule mining, clustering, and dimensionality reduction.
In this course, students explore fundamental concepts related to circuit theory-electric fields. Topics of study often include waveguides, radio propagation, and transmission lines. The course could also cover essential formulae and theories, such as the Huyghens principle, the Rayleigh-Sommerfeld formula, and the Fresnel-Fraunhofer approximation.
This course examines the theory and practice of the skills needed to engineer antennae. Candidates focus on the design, construction, and measurements of various components, including oscillators, microstrip filters, and low-noise amplifiers. Course topics could also include aperture sources, synthesis methods, and broadband antennas.
In this course, candidates receive an introduction to the field of computer vision, the process of using digital images or videos to create 3D models or perform other computations. Common topics in this course include vision algorithms, object recognition, 3D reconstruction, and image segmentation. The course often provides practical experience through a series of programming projects.
Digital Signal Processing
This course explores many aspects of digital signal processing and includes lessons in spectral estimation, parametric modeling, and convolution algorithms. Other lessons may feature instruction in interpolation, polyphase filtering, decimation, and filter banks. Certain programs may offer more specialized courses in digital signal processing, including stochastic, adaptive, and computational processing.
Career Options for Graduates with a Master's Degree in Electrical Engineering
Perhaps the most natural choice, electrical engineers are responsible for designing and building electrical systems and equipment. They can find work in a variety of industries, and engineers with a master's degree can focus on research and development or take on specialty roles dealing with such areas as power electronics.
Computer Research Scientist
Computer engineering is a subset of the electrical engineering field, and as such, this is a career path that involves many of the same skills and is a good fit for candidates with a master's degree in electrical engineering. Computer research scientists specialize in computing technology and focus on developing new technologies and finding ways to improve current systems. They may work solely in the computer science industry, but they can also find work in the business, scientific, and medical fields.
Network Systems Administrator
These professionals are tasked with ensuring the day-to-day operations and security of an organization's computer network. Because the position requires advanced technical skills and knowledge of complex computing and engineering concepts, such as integrated circuits and embedded systems, graduates with a master's in electrical engineering are a natural fit.
Computer Hardware Engineer
Computer hardware engineers explore, create, and test computer systems and the various tools that make them run. They routinely work with components such as circuit boards, routers, memory devices, and processors. The profession requires many of the same tasks as electrical engineers, and individuals with a master's degree in electrical engineering can qualify for positions with large firms or pursue specialty roles.
|Job Title||Median Salary (2018)*||Job Outlook (2018-2028)*|
|Electrical Engineer||$96,640 per year||5% (As fast as average)|
|Computer Research Scientist||$118,370 per year||16% (Much faster than average)|
|Network Systems Administrator||$82,050 per year||5% (As fast as average)|
|Computer Hardware Engineer||$114,600 per year||6% (As fast as average)|
How to Apply to a One-Year Master's Degree Program in Electrical Engineering
As with standard two-year programs, applicants to one-year master's degree programs will need to have a bachelor's degree. Some schools require that this degree also be in electrical engineering or at least require candidates to demonstrate proficiency in a related field. In addition to transcripts, applicants usually need to supply a resume, letters of recommendation, and a statement of purpose. Other application requirements can include GRE scores and an interview with the admissions committee.
One-year master's degree programs in electrical engineering allow students to quickly acquire the skills and knowledge needed to pursue advanced positions in the field through coursework in signal processing and machine learning, among other areas. Graduates from these programs are prepared for a number of careers, including electrical and computer hardware engineers.