The field of telecommunications engineering combines several areas of study, including computer science, engineering, network systems, electrical systems and technology. Students enrolled in a master’s degree program in the telecom engineering field learn to combine these areas of study to develop and maintain various communication devices, such as network systems, video systems, telephone systems and wireless broadband systems.
A master’s degree program in telecom engineering is designed for those students interested in gaining leadership or managerial roles in the industry. Therefore, graduate students in the field also learn about project management, policy and regulation. Most students enrolled in a telecom engineering master’s degree program must also complete a thesis project before the 2-year program is concluded.
Education Prerequisites
Nearly every university offering a master’s degree program in telecommunications engineering requires the completion of a bachelor’s degree program as a primary prerequisite for entrance. Some acceptable undergraduate programs that could lead to entrance include engineering, engineering technology, telecommunications or a related field.
Program Coursework
Coursework in a master’s degree program in telecom engineering is offered primarily through classroom lectures and computer laboratory experience. Some examples of graduate-level courses in the field include:
Telecommunications concepts
Telecommunications networks
Computer network theory
Random processes
Telecommunications policy and regulation
Operating systems for telecommunications
Network engineering
Wireless telecommunications systems
Digital communications systems
Popular Career Options
There are several career choices available for individuals interested in management positions in the telecommunications engineering industry. Some of these include:
Software engineer
Telecommunications project manager
Radio feed engineer
Power supply electrical engineer
Broadcast engineer
Digital video engineer
Wireless network engineer
Telecommunications sales agent
Telecommunications analyst
A specialty within electrical engineering and closely linked to broadcast engineering, telecommunications engineering involves the design of specialized computer and electronics equipment for use in a telecommunications network or infrastructure. These include cellular telephone networks, broadband systems and other cutting-edge technologies.
Along with designing intricate telephone and high speed data systems, telecommunications engineers often oversee the installation of telecommunications equipment and are responsible for coming up with creative, cost-effective solutions to telecommunications problems. Their in-depth training in modern-day telecommunications technology and engineering equips them with the expertise and problem-solving skills to successfully achieve this goal.
What You’ll Do
A specialty within electrical engineering and closely linked to broadcast engineering, telecommunications engineering involves the design of specialized computer and electronics equipment for use in a telecommunications network or infrastructure. These include cellular telephone networks, broadband systems and other cutting-edge technologies.
Along with designing intricate telephone and high speed data systems, telecom munications engineers often oversee the installation of telecommunications equipment and are responsible for coming up with creative, cost-effective solutions to telecommunications problems. Their in-depth training in modern-day telecommunications technology and engineering equips them with the expertise and problem-solving skills to successfully achieve this goal.
Job Opportunities
Playing a key role in building a communications infrastructure for a global economy, telecommunications engineers enjoy job opportunities in a number of industries. They work in wired and wireless communications companies, engineering consulting or design firms, electronics components manufacturers, and government agencies.
The Future of Telecommunications Engineering
The telecommunications industry seems to invent a new technology every day. From cell phones to smart phones to ever-improving broadband communications, telecommunications engineers have been integral to driving the world into the twenty-first century.
In that regard, the National Association of Manufacturers (NAM) reports that the FCC has released a comprehensive plan to increase broadband accessibility and speed to consumers in rural areas of the U.S., which, in turn, will encourage economic opportunities and job growth. Manufacturers, construction and telecommunication services will benefit from the expansion of the country’s broadband infrastructure as will rural entrepreneurs and businesses interested in expanding their market base.
Schools & Degrees
Telecommunications engineers utilize a diverse skill set in developing telephone and high speed data services. Their education typically involves a broad array of engineering training, including electronics, civil, structural and electrical, along with fundamental business courses and project management.
Typically, telecommunications engineers hold bachelor’s degrees in electrical engineering and enter their field in an apprentice-type role, gaining practical experience working closely with a senior-level telecommunications engineer. Students interested in obtaining a master’s degree can pursue advanced training in electrical or telecommunications engineering.
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