Department of Biomedical Engineering

 

Graduate Education in Neural Engineering

Philosophy

Students involved in the Neural Engineering program learn to describe and understand the mechanisms underlying neuronal function and to explore and develop technology for interfacing, imaging and growing neural tissue.

Goal

The goal is to educate neural engineers and scientists to bridge the gap between advances in neuroscience and in mathematics, physics and engineering by integrating neuroscience and engineering education and integrating research and education.

Viission

This  educational program will develop a new breed of researchers with powerful tools to face the formidable task of understanding and  simulating brain function as well as designing brain-machine interfaces.


Curriculum for Neural Engineering

Engineering 6 graduate engineering courses in area related to research
Biological Sciences 5 courses with dominant biological content
  Physiology for Engineers (2 courses)
  Neuroscience related courses (3 courses)
Mathematical Science 2 graduate courses with primarily mathematical content
BME Core Physiology
  Instrumentation
  Signal and Systems
  Ethics
  BME Seminar
  Graduate Teaching
Research 18 credit hours
Total courses 13 courses (39 credit hours)

 


Graduate Courses in Neural Engineering

Fundamentals of Bioelectricity (Biomedical Engineering)

Computational Neuroscience (Electrical and Computer Engineering)

Seminar in Computational Neuroscience (Electrical and Computer Engineering)

Structure and function of excitable cells (Biomedical Engineering)

Systems neuroscience (Neurosciences)

Applied Neural Control (Biomedical Engineering)

Cellular and Molecular Neurobiology (Neurosciences)

Artificial Neural Nets (Electrical and Computer Engineering)

Dynamics of Excitable systems  (Electrical and Computer Engineering)

Tissue Engineering in Biomedical Engineering (Biomedical Engineering)

Introduction to Neurobiology (Biology)

Autonomous robotics (Electrical and Computer engineering)

Rehabilitation for Scientists and Engineers (Biomedical Engineering)

Motor Systems Neuroprostheses (Biomedical Engineering)

Muscle, Movement and Control (Biomedical and Mechanical Engineering)