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Bachelor of Science in Computer Engineering
The 127 credit hour program in computer engineering leads to the Bachelor of Science degree in Computer Engineering. Thirty-two hours of mathematics and physics and 9 hours of computer science complement the required 42 hours of work in the computer engineering area. Nine hours in written and oral communications, 18 hours in the humanities and social sciences, and 17 hours of engineering electives provide the opportunity for the student to acquire a general educational background and gain the cultural attributes associated with a university education.
The individual holding this degree will have advanced knowledge in his or her field of engineering interest and in addition will have a university educational background involving mathematics, the physical sciences, and the humanities and social sciences. Completion of this curriculum will enable the graduate to enter employment in positions involving computer hardware design and applications, computer software design and development, microcomputer based applications, and computer networking. The program also leads to the preparation for graduate work in computer engineering, computer science or electrical engineering.
Degree Requirements
First Year - First Semester
First Year - Second Semester
CEEN 1060 | Microprocessor Applications | 3 credits |
CEEN 2250 | Computer and Electronics Engineering Seminar | 1 credit |
CSCI 1620 | Introduction to Computer Science II | 3 credits |
MATH 1960 | Calculus II | 5 credits |
PHYS 2110 | General Physics 1 - Calculus Level | 4 credits |
PHYS 1154 | General Physics Laboratory I | 1 credit |
| Total Credit Hours: | 17 |
Second Year - First Semester
CEEN 2130 | Electrical Circuits I | 4 credits |
CEEN 2184 | Electrical Circuits Laboratory I | 1 credit |
MATH 2350 | Differential Equations | 3 credits |
PHYS 2120 | General Physics - Calculus Level | 4 credits |
SPCH 1110 | Public Speaking Fundamentals | 3 credits |
| Total Credit Hours: | 15 |
Second Year - Second Semester
CEEN 2220 | Electronic Circuits I | 4 credits |
CEEN 3130 | Switching Circuit Theory | 4 credits |
MATH 1970 | Calculus III | 4 credits |
ENGL 3980 | Technical Writing Across the Disciplines | 3 credits |
| Total Credit Hours: | 15 |
Third Year - First Semester
ACE elective: Choose one course from each ACE Student Learning Outcome (SLO) 5,6,7,8 and 9 elective course.
Third Year - Second Semester
CEEN 3250 | Communications Systems | 4 credits |
CEEN 4330 | Microprocessor System Design | 4 credits |
| Engineering Elective | 6 credits |
| ACE Elective | 3 Credits |
| Total Credit Hours: | 17 |
ACE elective: Choose one course from each ACE Student Learning Outcome (SLO) 5,6,7,8 and 9 elective course.
Fourth Year - First Semester
CEEN 4360/CEEN 8366 | Embedded Microcontroller Design | 4 credits |
CEEN 4960 | Senior Thesis Proposal | 1 credit |
ENGR 4690/ENGR 8696 | Technology, Science and Civilization | 3 credits |
| Engineering Elective | 5 credits |
| ACE Elective | 3 credits |
| Total Credit Hours: | 16 |
ACE elective: Choose one course from each ACE Student Learning Outcome (SLO) 5,6,7,8 and 9 elective course.
Fourth Year - Second Semester
CEEN 4990 | Senior Thesis | 3 credits |
| Engineering Elective | 6 credits |
| ACE elective | 6 Credits |
| Total Credit Hours: | 15 |
ACE elective: Choose one course from each ACE Student Learning Outcome (SLO) 5,6,7,8 and 9 elective course.
Three hours of engineering electives may be non-CEEN courses.