Degrees and Programs

Allen E. Paulson College of Engineering Degree Programs

The Allen E. Paulson College of Engineering and Computing has

• 6 Academic Departments
• 11 Undergraduate Degrees
• 8 Graduate Degrees (6 Masters Degrees and 2 PhD Degrees)

In our College, you will build the foundational framework for STEM careers in high demand. Through a mix of a rigorous curriculum, hands-on labs,  individual & team projects + access to industry & business professionals, our faculty will mentor you through our programs.

Academic Departments

• Computer Science
• Information Technology
• Civil Engineering and Construction
• Electrical & Computer Engineering
• Manufacturing Engineering
• Mechanical Engineering

Undergraduate Degrees

Types of Engineering Degrees

Georgia Southern’s Paulson College of Engineering and Computing offers engineering degrees for every type of student, and it’s important that you find the one that fits your goals, interests, and personality. Whether you’re coming through the Regents’ Engineering Pathways (REP) Program, or starting out in one of Southern’s degree programs, we provide you resources that help you make this decision. Learn the differences between engineering degrees to find the right fit for you!

Civil Engineering

Civil Engineering

Civil engineers plan, design, construct, operate, test, maintain, inspect and manage society’s infrastructure. Infrastructure includes roads and bridges, shipping terminals and ports, skyscrapers and tunnels, reservoirs and sewage systems, railways and airports, and other facilities.  Every day, no matter where you live, you benefit from something designed or managed by a civil engineer.  If you’ve ever wondered how a bridge or a building was designed and constructed, or how the water you drink is made safe, then civil engineering may be your calling.

Computer Engineering

Computer Engineering

Computer engineers blend electrical engineering and computer science to contribute to advancements in digital technology, computer networking and computer systems.  They use hardware and software design and computer programming to make computing platforms and apps more efficient and powerful, to ensure that hardware and software systems are seamlessly integrated, and to make computing systems safer.  As a computer engineer, you could develop new computer hardware, design and implement software applications, or enhance the capabilities of networks and communications systems. From robotics to wireless networks, from operating systems to aircraft design, there is a specialization in computer engineering for any interest.

Construction Engineering

Construction Engineering

A construction engineer is the key to successfully completing a construction project.  Construction engineers are equipped to design and oversee the construction, maintenance and rebuilding of infrastructural facilities such as roads, bridges, airports, buildings and water treatment facilities in ways that best meet the unique demands of a particular environment.  You will often work with a team including civil engineers and construction managers to solve technical challenges of complex construction projects. While a civil engineer generally focuses on design, and the construction manager focuses on the management of time and resources, the construction engineer bridges the gap between these two professions with additional engineering, technical and management skills necessary for the efficient and safe delivery of complex projects.

Electrical Engineering

Electrical Engineering

Electrical engineers are among the most common engineer types, providing the largest sector in engineering. Electrical engineers design and develop electrical and electronic systems and devices, working with a wide range of electronic devices — from pocket calculators and computers to complex electronic systems and robotics.  An electrical engineer could work with the tiniest of antennas or the largest of power systems.

Manufacturing Engineering

Manufacturing Engineering

Manufacturing engineers work in tandem with mechanical and electrical engineers to design products and ensure their manufacturability. A manufacturing engineer concentrates on facilities, equipment, processes and methods necessary for the efficient and safe production of the product in a globally competitive environment.  At Georgia Southern, you will learn about cutting-edge materials and materials processing, engineering design for manufacturability, lean and quality manufacturing, manufacturing automation and robotics, and additive and reverse engineering.

Mechanical Engineering

Mechanical Engineering

Mechanical engineers design, create, analyze, develop, manufacture, control, test and maintain essential mechanical systems.  These systems include aircraft, medical equipment, vehicles, robotics, environmental systems, household appliances, industrial machinery, ships —  almost any system that uses or produces energy or has moving parts. Many mechanical engineers enjoy work in the automotive industries and aerospace, working to generate, convert, transmit, and utilize mechanical and thermal power.

Types of Computing Degrees

Georgia Southern offers a wide rage of computing degrees in the Paulson College of Engineering and Computing. It is important to select the program that fits your personality and builds on your strengths. Whichever computing path you choose, our faculty will provide you with hands-on experience so you will be work-ready when you graduate. According to the U.S. Bureau of Labor Statistics, employment of computer and information technology occupations is projected to grow 15% from 2019 to 2029, much faster than the average for all occupations. Demand stems from greater emphasis on cloud computing, the collection and storage of big data, and the need for information security.

Computer Engineering

Computer Engineering

Computer engineers blend electrical engineering and computer science to contribute to advancements in digital technology, computer networking, and computer systems.  They use hardware and software design and computer programming to make computing platforms and apps more efficient and powerful, to ensure that hardware and software systems are seamlessly integrated, and to make computing systems safer.  As a computer engineer, you could develop new computer hardware, design and implement software applications, or enhance the capabilities of networks and communications systems. From robotics to wireless networks, from operating systems to aircraft design, there is a specialization in computer engineering for any interest.

Computer Science

Computer Science

Computer scientists design software technologies that entertain, transport, communicate, educate, finance and defend future generations of Americans.  Earning your degree in CS gives you the ability to adapt to new technologies and ideas.  As a computer scientist, you will work with experts to develop innovative ways to harness the power of computing to solve real-world problems.

Information Technology

Information Technology

IT professionals are digital problem-solvers who will lead America’s fastest growing career field. A wide range of employment opportunities in IT exist because most companies require IT to be competitive or even to exist in today’s markets. As an IT graduate, you will hit the ground running in specializations such as cyber security, information management, networking and datacenter management, web and mobile development, or information technology management.

Data Science IT Concentration

Data Science IT Concentration

As a data scientist, you are the force driving our ability to use Big Data.  We need professionals with the specialized skills needed to analyze and manage the vast amount of data streaming from social media, e-commerce, sensors and databases of all kinds. Professional data scientists analyze an organization’s Big Data to discover trends and find meaning behind that data to gain actionable insights to help those businesses work smarter and make better decisions.  That’s why data scientists are among the highest paid IT professionals.

Cyber Security in IT

Cyber Security in IT

As a cyber security IT professional, your skills are in high demand in areas such as digital forensics, cyber law, cyber warfare, cyber policy, cryptography, artificial intelligence, electronic warfare, healthcare informatics, and data analytics. The Cyber Security Certificate option of our B.S. in Information Technology provides student access to curriculum, programs, and industry partnerships that impart the skills and concepts applicable to 21st-century cyber workforce needs. We will prepare you to prevent and investigate cyber-attacks, monitor and secure  networks and integrate best systems practices throughout the world.

BIT Online

BIT Online

The Bachelor of Information Technology degree (BIT) is a 124-credit hour program delivered entirely online as an eMajor degree through a partnership between Georgia Southern University and the University System of Georgia’s (USG) eCampus. As one of the state’s premiere institutions for engineering and computing, the BIT Online at Georgia Southern is uniquely positioned to produce graduates with the knowledge, skills, and abilities required to meet the demands of today’s employers.

Regents’ Engineering Pathway (REP) Program

The Regents’ Engineering Pathway (REP) Program allows students at colleges and universities in the University System of Georgia (USG) to study for two years at their home institution, then transfer to Georgia Southern, Georgia Tech, Kennesaw State, Mercer University or the University of Georgia to complete their engineering degrees.*

Graduate Degrees

Masters Degrees

PhD Degrees

Doctor of Philosophy in Engineering

Doctor of Philosophy in Engineering

The Ph.D. program in Engineering prepares graduates who can demonstrate an ability to conduct independent and creative research that contributes to the advancement of knowledge; demonstrate a sufficient breadth of understanding in engineering, and an appropriate depth of understanding in a chosen area of research specialization; apply knowledge and creativity to solve complex problems and challenges facing society; provide ethical, responsible, and sustainable technical leadership; and communicate effectively. To read more about the program and requirements, please click here.

Doctor of Philosophy in Applied Computing

Doctor of Philosophy in Applied Computing

Graduates of the Ph.D. program in Applied Computing will demonstrate an ability to conduct independent and creative research that contributes to the advancement of knowledge; demonstrate a sufficient breadth of understanding in applied computing, and an appropriate depth of understanding in a chosen area of research specialization; apply knowledge and creativity to solve complex problems and challenges facing society; provide ethical, responsible, and sustainable technical leadership; and communicate effectively. To read more about the program and requirements, please click here.

Last updated: 7/10/2024