BSECE - Electrical and Computer Engineering (Biomedical Concentration)
Degree Requirements: BSECE - Electrical and Computer Engineering Major (Biomedical Concentration)
| Code | Title | Hours |
|---|---|---|
| Required Courses | ||
| Minimum 124 hours including the following: | ||
| Literature and Writing | ||
| ENG 1310 | Research Writing: Writing and Academic Inquiry Seminars | 3 |
| GTX 2301 | Intellectual Traditions of the Ancient World : Literature and Thought | 3 |
| or GTX 2302 | Medieval Intellectual Traditions: Literature and Thought in Context | |
| PWR 3300 | Technical Writing | 3 |
| Religion | ||
| REL 1310 | The Christian Scriptures | 3 |
| REL 1350 | The Christian Heritage | 3 |
| Foreign Language and Culture | ||
| Foreign Language and Culture Distribution List (ECS) | 3 | |
| Other Requirements | ||
| PSC 1387 | The U.S. Constitution, Its Interpretation, and the American Political Experience | 3 |
| or ENG 2301 | British Literature | |
| EGR 2108 | Engineering Economics | 1 |
| EGR 3305 | Social and Ethical Issues in Engineering | 3 |
| or EGR 3315 | Ethics of International Service | |
| EGR 1101 | Engineering New Student Experience | 1 |
| Lifetime Fitness: Any one LF 11XX course. ECS 2101 and select leadership courses may fulfill one of the Lifetime Fitness requirement. | 1 | |
| Chapel: Two Semesters | 0 | |
| General Elective Credit | 3 | |
| Mathematics and Basic Sciences | ||
| CHE 1301 | Basic Principles of Modern Chemistry I | 3 |
| MTH 1321 | Calculus I | 3 |
| MTH 1322 | Calculus II | 3 |
| MTH 2311 | Linear Algebra | 3 |
| MTH 2321 | Calculus III | 3 |
| MTH 3325 | Ordinary Differential Equations | 3 |
| STA 3381 | Probability and Statistics | 3 |
| PHY 1420 | General Physics I | 4 |
| PHY 1430 | General Physics II | 4 |
| Mathematics Elective | ||
| Select one course from the following: | 3 | |
| Numerical Methods | ||
| Partial Differential Equations | ||
| Numerical Analysis | ||
| Systems of Ordinary Differential Equations | ||
| Theory of Functions of a Complex Variable | ||
| Statistical Process Control | ||
| Electrical and Computer Engineering Major (Biomedical Concentration) | ||
| Required Courses | ||
| EGR 1301 | Introduction to Engineering | 3 |
| EGR 1302 | Introduction to Engineering Analysis | 3 |
| EGR 3380 | Engineering Design I | 3 |
| CSI 1430 | Introduction to Computer Science I with Laboratory | 4 |
| ELC 2337 | Digital Logic Design | 3 |
| ELC 2137 | Digital Logic Design Laboratory | 1 |
| ELC 2330 | Electrical Circuit Theory | 3 |
| ELC 2130 | Electrical Circuit Laboratory | 1 |
| ELC 3114 | Electronic Design Laboratory | 1 |
| ELC 3314 | Electronic Design | 3 |
| ELC 3335 | Signals and Systems | 3 |
| ELC 3336 | Microprocessor Systems | 3 |
| ELC 3337 | Applied Electromagnetic Fields | 3 |
| ELC 3338 | Computer Organization | 3 |
| ELC 4332 | Automatic Control Systems | 3 |
| ELC 4351 | Digital Signal Processing | 3 |
| ELC 4438 | Embedded Systems Design | 4 |
| BME 4376 | Introduction to the Design and Evaluation of Medical Devices | 3 |
| Biomedical Engineering Electives | ||
| BME Elective 1 - Select one of the following: | 3 | |
| Bioinstrumentation | ||
| Introduction to Biosensors | ||
| BME Elective 2 - Select one of the following: | 3 | |
| Image Formation and Processing | ||
| Medical Imaging | ||
| BME Elective 3 - Select one of the following: | 3 | |
| Special Topics in Biomedical Engineering | ||
Any course not taken to fulfill BME Elective 1 or BME Elective 2. | ||
| Engineering Electives | ||
| Select one course from the following or any course not taken to fulfill BME Elective 1, BME Elective 2, or BME Elective 3.: | 3 | |
| Internship Experience | ||
| Renewable Energy Devices | ||
| Elements of Nuclear Engineering | ||
| Advanced Logic Design | ||
| Softcore System on a Chip (SoC) | ||
| Advanced Computer Architecture | ||
| VLSI | ||
| Verification and Validation in Digital Systems | ||
| Avionics System Design | ||
| Massively Parallel Programming | ||
| Introduction to Optics | ||
| Computational Photonics | ||
| Integrated Photonics | ||
| Solid-State Materials | ||
| Semiconductor Devices | ||
| Fundamentals of Lasers | ||
| Optoelectronics | ||
| Introduction to Microfabrication | ||
| Introduction to Robotics | ||
| Electric Machines and Drives | ||
| Modeling & Control of Electric Machines | ||
| Power Systems | ||
| Power Electronics | ||
| Principles of Communication | ||
| Image Formation and Processing | ||
| Cardiovascular Engineering and Instrumentation | ||
| Software Systems | ||
| Wireless Sensor Networks | ||
| Networks and Security | ||
| Quantum Mechanics for Engineers | ||
| Introduction to Quantum Computing | ||
| Bioinstrumentation | ||
| Solar Energy | ||
| Introduction to Biosensors | ||
| Antennas and Wireless Propagation I | ||
| RF/Microwave Circuits I | ||
| RF/Microwave Circuits II | ||
| Special Topics in Electrical or Computer Engineering | ||
| Special Projects in Electrical or Computer Engineering | ||
| Sustainable Engineering | ||
| A grade of "C" or better in all the Electrical and Computer Engineering hours counted towards the major. | ||
| Total Hours | 124 | |