Physiological Modeling detailed syllabus scheme for Biomedical Engineering (BM), 2019-20 onwards has been taken from the DBATU official website and presented for the Bachelor of Technology students. For Subject Code, Course Title, Lecutres, Tutorials, Practice, Credits, and other information, do visit full semester subjects post given below.
For 6th Sem Scheme of Biomedical Engineering (BM), 2019-20 Onwards, do visit BM 6th Sem Scheme, 2019-20 Onwards. For the Elective-VI scheme of 6th Sem 2019-20 onwards, refer to BM 6th Sem Elective-VI Scheme 2019-20 Onwards. The detail syllabus for physiological modeling is as follows.
Physiological Modeling Syllabus for Biomedical Engineering (BM) 3rd Year 6th Sem 2019-20 DBATU
Course Objectives:
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Course Outcomes:
- To understand and gain knowledge about methods of finding solutions to biological problems using computational tools.
Unit I
Introduction To Physiological Control Systems
Introduction to Physiological control systems, Examples – Art of modeling -Linear systems – Mathematical Modeling, System properties- Resistance, Compliance – Models with combination of elements – Muscle model – Maxwell, Voigt Model – Linear physiological models – Distributed versus lumped parameter models -Mathematical tools for representation of physiological systems -SIMULINK model of physiological systems
Unit II
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Unit III
Time Domain Analysis
Time domain analysis – Introduction to first order and second order model -Respiratory mechanics – open loop and closed loop model of lung mechanics -First order model – impulse and step response – Second order model – Impulse response – undamped, under damped, critically damped, and over damped behavior – Method of obtaining step response from impulse response – Transient response descriptors – Model of neuromuscular reflex motion – Transient response analysis using MATLAB
Unit IV
Frequency Analysis
Frequency response analysis – response to sinusoidal inputs – Closed loop and open loop response – Relationship between transient and frequency response -Graphical representation of Frequency response – Bode plot – Nicholas chart -Nyquist plots – Pupillary Retinal system – Frequency response analysis using MATLAB -Simulink
Unit V
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Reference Books:
- Michael C K, Khoo, “Physiological Control Systems – Analysis, Simulation and Estimation”, Prentice Hall of India Private Ltd., New Delhi, 2001.
- Joseph D, Bronzino, “The Biomedical Engineering Handbook”, CRC Press, 3rd edition, 2006
- Claudio Cobelli, Ewart Carson, “Introduction to Modeling in Physiology and Medicine”, Academic Press, 2008.
For detail syllabus of all subjects of Biomedical Engineering (BM) 6th Sem 2019-20 onwards, visit BM 6th Sem Subjects of 2019-20 Onwards.