Course Schedule and Catalog

Department: *Computational & Applied Math*

Meeting: 2:30PM - 3:45PM TR (24-AUG-2015 - 4-DEC-2015) 

Part of Term: Full Term

Grade Mode: Standard Letter

Course Type: Lecture

Language of Instruction: Taught in English

Method of Instruction: Face to Face

Credit Hours: 3

 

Section Max Enrollment: 0 (permission required)

Section Enrolled: 7

Total Cross-list Max Enrollment: 0

Total Cross-list Enrolled: 13

Enrollment data as of: 20-APR-2024 3:01AM

 

 

Final Exam: Take-Home Exam

 

Description: This course introduces current theoretical methods used to model the properties of nerve cells and the processing of information by neuronal networks. Concrete examples that can be implemented using MATLAB will be emphasized. The starting point is the passive cable properties of single neurons and the Hodgkin-Huxley model of action potential generation. Subsequently, models of synaptic transmission and active properties of dendritic trees will be considered. This will be followed by stochastic properties of single neurons and information encoding using mean and instantaneous firing rates in visual neurons. Finally, methods to analyze phase-locking and activity in populations of cells as well as learning algorithms will be considered. Cross-list: NEUR 415, ELEC 488, CAAM 615, NEUR 615. Recommended Prerequisite(s): MATH 211 OR CAAM 335. Mutually Exclusive: Cannot register for CAAM 415 if student has credit for CAAM 615.