School of Engineering \ Biomedical Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Department of Biomedical Engineering
BMM 302 course provides information about mathematical foundations of physiological systems to third year Biomedical Engineering students. The course includes information about Mathematical Foundations of Physiological Systems, Nernst Equation, Goldman Equation, Donnan Equilibrium Condition, Hodking-Huxley Model, Action Potential, Electrical Activity of the Heart, Hemodynamics, Instrumentation Amplifiers, Electrocardiography Devices, Electromyography Devices, Electroencephalography Devices, Nervous System and Measurement Devices, Hemodialysis Devices, Respiratory Function Testing Devices.
Textbook and / or References
JG Webster, Medical Instrumentation: Application and Design, 4th Edition, Wiley, 2009 RS Khandpur, Handbook of Biomedical Instrumentation, 3rd Edition, McGraw Hill Education, 2014
The aim of the BMM 302 course is to provide students with basic information about physiological systems and technical information about biomedical instrumentation applications. It is aimed that students can understand the mathematical modeling of physiological systems, grasp the working principles of basic biomedical devices and perform instrumentation applications.
1. Understand and apply the mathematical foundations of physiological systems
2. Explain the mechanisms of cell membrane potential and action potential
3. Design basic biopotential amplifiers and measurement systems
4. Understand the operating principles of electrocardiography, electromyography and electroencephalography devices
5. Understand the basic features of hemodialysis and respiratory function test devices
6. Apply the design criteria of biomedical instrumentation systems
Week 1: Mathematical Foundations of Physiological Systems
Week 2: Nernst Equation, Goldman Equation, Donnan Equilibrium Condition
Week 3: Hodgkin-Huxley Model
Week 4: Action Potential
Week 5: Electrical Activity of the Heart
Week 6: Hemodynamics, Instrumentation Amplifiers
Week 7: Electrocardiography Devices
Week 8: Electromyography Devices
Week 9: Electroencephalography Devices
Week 10: Nervous System and Measurement Devices
Week 11: Hemodialysis Devices
Week 12: Respiratory Function Testing Devices
Tentative Assesment Methods
Midterm 35 %
Final 50 %
Homework 10 %
Participation 5 %
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B, A
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B, A
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A, B
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B, A
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B, A
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