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BME 639
Control Systems and Bio-Robotics
Introductory course for Biomedical Engineers: system modeling, simulation, analysis and classical-controller designs of linear, time-invariant, continuous time systems. System dynamic properties in time and frequency domains, performance specifications and basic properties of feedback are investigated. Stability analysis is reinforced through Routh-Hurwitz criterion, Root-Locus method, Bode plots, and Nyquist criteria. Concept of Bio-Robotics is introduced, and exposure to basics of state-space representation and feedback. Key control concepts are experienced through laboratory experiments using modular servo-system with open architecture, fully integrated with MATLab and Simulink; use of simulation tools; and solving design problems.
Weekly Contact: Lab: 1.5 hrs. Lecture: 3 hrs.
GPA Weight: 1.00
Course Count: 1.00
Billing Units: 1
Mentioned in the Following Calendar Pages
*List may not include courses that are on a common table shared between programs.
- BME 705 - Rehabilitation Engineering
- BME 70A/B - Biomedical Engineering Capstone Design
- BME 714 - Medical Robotics
- BME 772 - Biomedical Signal Analysis
- BME 777 - Emerging Topics in Biomedical Engineering
- BME 802 - Human-Computer Interaction
- BME 803 - Cardiovascular Biomechanics
- BME 809 - Biomedical Systems Modelling
- Biomedical Engineering