Choosing an MSEE Specialization

Are you considering a career in electrical engineering? Before earning a master’s in electrical engineering, it is important to note that there are several specializations within the field. Each branch of electrical engineering can lead to specific careers with their own particular areas of focus.

Specializations in electrical engineering:

Communications, Signal Processing, and Microwave

With numerous advancements in technology being made at a rapid pace, the world is more connected than ever. By specializing in communications, signal processing, and microwave, you will learn how communication systems are developed, how they operate, and the technology behind them. The communications, signal processing, and microwave specialization, or “CSM,” provides students with a through understanding of how information is transmitted, as well as communication theory.

Course topics include:

  • Communications Systems Theory: This subject explores the convergence of human communications with the technical process of information.
  • Digital Signal Processing: This course explores the theory of how digital signals can improve basic processing techniques. Digital signal processing refers to the various ways in which digital communication can become more reliable and accurate.
  • Wireless and Personal Communication System: With advancements in wireless devices and communication systems, engineers face a new set of technical challenges. This course seeks solutions to these challenges, whether they concern link layer design of wireless communication systems, the cellular concept, or advances in 3G and 4G wireless technologies.
  • Wireless Networks: Wireless devices and networks are changing how human beings communicate with one another. This course provides an introduction as to how wireless networks are planned, designed, and managed.

By taking these courses and more, students earning a CSM degree will be prepared for a career focusing on communication systems. Communication technology is growing every day, making a CSM degree highly relevant in today’s modern world.

Mechatronics

Mechatronics is a unique field in that it seeks to combine several branches of engineering. Instead of being restricted by focusing on one aspect of the engineering industry, mechatronics blends computer, electrical, and mechanical engineering in an effort to develop advanced automated systems. Advanced automated systems, which refers to the process of completing a task without the need for human interaction, is likely to be the future of engineering.

Mechatronic technology is used in numerous devices and systems. The medical industry, for instance, is finding applications for mechatronics in surgical robots, artificial organs, and various medical devices. Mechatronics is also used to make anti-lock brakes and other products of automotive engineering, as well as automated flight control systems.

There is a wide range of career opportunities for students specializing in mechatronics, since it encompasses various issues from several branches of engineering. This multidisciplinary knowledge can be applied to the design of numerous devices, systems, and products. Mechatronics also prepares students for working with advanced computer control systems, mechanical and electrical processes, and other technical skills.

Power and Energy Systems

The power and energy systems specialization prepares students for a career in sustainable energy. With the cost of resources, environmental conservation, and an increased use of energy, experts in sustainable energy are needed now more than ever. By learning how to generate sustainable power and convert energy, students specializing in power and energy systems will be prepared for an environmentally conscientious future.

By specializing in power and energy systems, students gain an understanding of:

  • How complex power systems are managed in relation to financial and regulatory restrictions.
  • How energy is stored and distributed for different projects and utilities.
  • How electrical networks and electronic power systems are designed, developed, manufactured, protected, and controlled.
  • How the use of renewable energy can have a positive effect on the environment.
  • The growing role of sustainable energy in U.S. manufacturing.

Students of power and energy systems learn of the numerous advancements made in solar energy applications, bioenergy resources, and wind energy systems. This specialization may lead to a career as an engineer in renewable energy, which focuses on solar solutions, wind energy, and better options for clean alternative fuel. These power sources can be found in the modern designs of commercial buildings, residential homes, hospitals, and government facilities.

Master of Science in Electrical Engineering – Career Goals

An MSEE degree can lead to several different careers. Students of electrical engineering must consider their options and which branch of engineering they would like to work in. Whether students specialize in power and energy systems, mechatronics, or communications, signal processing, and microwave, it is important to take the necessary coursework so that they are properly prepared for their career in electrical engineering.

Recommended Readings:

Sources:

http://graduatedegrees.online.njit.edu/masters-engineering-programs/electrical-engineering/

https://igsenergy.wd1.myworkdayjobs.com/en-US/IGS/job/New-York-NY/Engineer–Renewable-Energy_R509?source=indeed

http://graduatedegrees.online.njit.edu/msee-specialization-slide-1/

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