EGR 336 SIGNALS AND SYSTEMS
Systems analysis plays a critical role in interpreting biological data, designing medical equipment, and understanding complex biological processes. Systems problems are emerging as central to all areas of biomedicine—including but not limited to cancer, immunology, infectious disease, musculoskeletal disorders, and cardiology. The overarching goal of this course is to promote quantitative thinking from a systems perspective. To this end, students will learn analytical approaches using Matlab for modeling signals and systems and apply them to solve real-world biomedical problems, such as predicting tumor growth, analyzing ECG signals, and processing medical images.
Prerequisite
Computer Science I (
CSC 130), Introduction to Matlab (
EGR 122), University Physics II (
PHY 222)
Corequisite
Differential Equations (
MTH 351)
Notes
Offered: spring of odd year
Course Outcomes
- • Represent and model Signals
• Analyze continuous- and discrete-time systems in the time domain
• Perform Fourier Analysis for continuous- and discrete-time signals and systems
• Sample and reconstruct signals
• Perform Laplace Transforms on continuous-time signals and systems
• Modulate signals
• Analyze and design filters