Dec 26, 2024  
2024 2025 Academic Catalog 
    
2024 2025 Academic Catalog

Computer Engineering, B.S.

Location(s): Main Campus


Engineering Technology Building
Telephone: (203) 576-4145
Fax: (203) 576-4765

Curriculum and Program Requirements

The ever increasing use of the computer in today’s world offers expanding opportunities in this field of specialization. This program provides a bridge between the disciplines of electrical engineering and computer science. Graduates can enter such fields as chip design, software engineering, robotics, computer networks, internet of things, network security, and a variety of computer-controlled applications. This requires the development of the engineering approach through the understanding of engineering mathematics, digital and analog electronics and control, as well as computer languages, computing theory, and computer architecture. Design and problem solving form the heart of the discipline and a variety of computer aided design (CAD) tools are utilized to facilitate learning and implementation.

The graduate from this program will obtain the basic education in the first three years. The final year is utilized to explore specific areas of interest. One can choose a software oriented program including such areas as artificial intelligence, deep learning, computer vision, cyber security, cloud computing, and web application design, or a hardware oriented program pointing toward computer or integrated circuit design, robotics, internet of things, and networking.

The engineering approach and knowledge of hardware and software design are the attributes that make it unique. This program is accredited by the Engineering Accreditation Commission of the Accreditation Board for Engineering and Technology. A total of 121 semester hours are required for graduation.

Transfer Policy

All undergraduate ABET accredited programs students must complete all Engineering major coursework, Engineering and Technical Electives, and STEM coursework at the 300+ level; and Junior/Senior level (as per the program requirements) at the University of Bridgeport.

Students are able to transfer classes, if approved by the chair and dean, outside the University at lower (100-200) levels or Freshman/Sophomore level (as per the program requirements) only at the time of transferring into the program; and based on UB’s transer policy as it pertains to evaluation of course descriptions, syllabi, and examples of work done in transferred-in classes.

Course Substitution Policy

All undergraduate ABET accredited pro-grams students must complete all Engineering major coursework, Engineering and Technical Electives, and STEM coursework at the 300+ level; and Junior/Senior level (as per the program requirements) at the University of Bridgeport; and as per defined in the program requirements. There will be NO course substitutions allowed for these classes as defined in the program requirements.

Substitution courses may be allowed at lower (100-200) levels or Freshman/ Sophomore level (as per the program requirements) with the approval of the Department Chair and School Dean.

Program Objectives

Our Computer Engineering Graduates will:

  1. Develop effective and innovative solutions to challenging engineering problems;
  2. Become leaders in emerging technologies, developing future state-of-the-art designs and products based on new fundamental theories;
  3. Lead teams of engineers and collaborate with other professionals in multidisciplinary environments;
  4. Maintain an awareness of the global and societal environment, and engineer solutions to problems as they arise;
  5. Engage in life-long learning by pursuing advanced degrees and professional development leading to career advancement.

Learning Outcomes

Our Computer Engineering Students will:

  1. Demonstrate comprehension of math, science, and basic computer engineering topics;
  2. Comprehend the design of computer architectures; and integrated systems having major hardware and software components;
  3. Exhibit problem solving skills;
  4. Have the ability to use techniques, skills, and modern engineering tools necessary for engineering practice;
  5. Work effectively on teams;
  6. Demonstrate the ability to identify and apply concepts of engineering econom­ics and project planning;
  7. Demonstrate knowledge of contemporary global and societal issues and their relationship to professional ethics and engineering solutions;
  8. Demonstrate the ability to plan and conduct laboratory experiments and inter­pret and report the results;
  9. Exercise strong oral and written communication skills including those needed for technical writing;
  10. Have an awareness of the need for and demonstrate the ability to keep learning throughout life along with an appreciation of diversity in the world and in intellectual areas.

Summary of Requirements - 121 Credit(s)


General Education Requirements - 41 Credit(s)


Additional Information


* Credits counted under General Education Requirements

** FYS & CAPS General Education Requirements are met by Engineering Core and Program Requirements.

Suggested Program


Fifth Semester


Seventh Semester


Eighth Semester


  • 1 Credit(s)
  • Technical Elective I 3 Credit(s)
  • Technical Elective II 3 Credit(s)
  • HUM Humanities Core 3 Credit(s)

Technical Elective *


* This elective must be chosen from any senior level/graduate level course in CPEG, CPSC or ELEG like CPEG 371 , CPEG 415 , CPEG 472 , CPEG 510 , CPEG 561 , CPEG 577 , CPEG 585 , CPEG 586 , CPSC 440 , CPSC 501 , ELEG 364 , ELEG 446 , ELEG 451 , ELEG 458