Undergraduate Programs

Degree Programs

BS in Intelligent Systems Engineering

Bioengineering Concentration

ENGR courses that are not included in the course section of this bulletin as they are still being developed

  1. Must complete:

    • BIOL-L 112 Foundations of Biology: Biological Mechanisms
    • BIOL-L 211 Molecular Biology
    • BIOL-L 312 Cell Biology
    • CHEM-C 117 Principles of Chemistry and Biochemistry I
    • CHEM-C 341 Organic Chemistry I Lecture
    • *ENGR-E 331 Advanced Engineering Math
    • ENGR-E 332 Introduction to Modeling and Simulation

  2. Must complete:

    • BIOT-T 310 Biotechnology Lecture
    • BIOT-T 315 Biotechnology Laboratory

  3. Select 4 courses from the following:

    • *ENGR-E 341 Introduction to Computational Bioengineering
    • *ENGR-E 342 BioSensors and Instrumentation
    • *ENGR-E 424 Wearable Devices
    • ENGR-E 441 Simulating Cancer as an Intelligent System
    • *ENGR-E 443 Computational Methods for 3-D Biomaterials
    • *ENGR-E 444 Computational Tissue Engineering
    • *ENGR-E 445 Computational Synthetic Biology
    • *ENGR-E 446 Synthetic Biology
    • *ENGR-E 447 High Throughput Systems for Bioengineering

  4. Select 2 courses from the following or from the list above (if not used):

    • BIOL-L 313 Cell Biology Laboratory
    • BILO-L 323 Molecular Biology Laboratory
    • BIOL-L 350 Environmental Biology
    • BIOL-L 472 Microbial Ecology
    • BIOL-M 250 Microbiology
    • BIOL-M 350 Microbial Physiology and Biochemistry
    • BIOL-M 360 Microbial Physiology Laboratory
    • BIOL-M 430 Virology Lecture
    • BIOL-M 435 Viral Tissue Culture Laboratory
    • BIOT-T 425 Laboratory in Macromolecular Production, Purification, and Characterization
    • BIOT-T 440 Structure, Function, and Regulation of Biomolecules
    • CHEM-C 383 Human Biochemistry
    • PHYS-P 340 Thermodynamics and Statistical Mechanics
    • PHYS-P 575 Introduction to Biophysics
    • Any ISE course by approval
    • Any Math or Science course by approval

Academic Bulletins