ANNA UNIVERSITY CHENNAI: CHENNAI – 600 025
B.E DEGREE PROGRAMME BIOMEDICAL ENGINEERING
(Offered in Colleges affiliated to Anna University)
CURRICULUM AND SYLLABUS – REGULATIONS – 2004
B.E DEGREE PROGRAMME BIOMEDICAL ENGINEERING
(Offered in Colleges affiliated to Anna University)
CURRICULUM AND SYLLABUS – REGULATIONS – 2004
BM1006 PHYSIOLOGICAL MODELLING 3 0 0 100
AIM
Understand the concept of modelling and learn how to model any physiological control system for purpose of analysis.
Understand the concept of modelling and learn how to model any physiological control system for purpose of analysis.
OBJECTIVES
• To study the different types of modelling and its utilities.
• To study the physiological system as various electrical parameters.
• To develop mathematical background to understand the order of the system using transfer function.
• Study the physiological activities taking place in controlling specific physiological parameter and convert this detail as an acceptable model.
• To study the different types of modelling and its utilities.
• To study the physiological system as various electrical parameters.
• To develop mathematical background to understand the order of the system using transfer function.
• Study the physiological activities taking place in controlling specific physiological parameter and convert this detail as an acceptable model.
UNIT I INTRODUCTION 9
System concept, system properties, piece-wise linear approximation, electrical analog for compliance, thermal storage, pulse response of first order systems, response of resistant and compliance system.
System concept, system properties, piece-wise linear approximation, electrical analog for compliance, thermal storage, pulse response of first order systems, response of resistant and compliance system.
UNIT II TRANSFER FUNCTIONS 9
Transfer functions and its use, engineering concept in coupled system, example of Transformed signals.
Transfer functions and its use, engineering concept in coupled system, example of Transformed signals.
UNIT III IMPEDANCE CONCEPT 9
Circuits for the Transfer function with impedance concept, prediction of performance, periodic signals.
Circuits for the Transfer function with impedance concept, prediction of performance, periodic signals.
UNIT IV FEEDBACK SYSTEMS 9
Characteristics of physiological feedback systems, uses and testing of system stability.
Characteristics of physiological feedback systems, uses and testing of system stability.
UNIT V SIMULATION OF BIOLOGICAL SYSTEMS 9
Simulation of thermal regulation, pressure and flow control in circulation, occulo motor system, endocrinal system, functioning of receptors.
Simulation of thermal regulation, pressure and flow control in circulation, occulo motor system, endocrinal system, functioning of receptors.
TOTAL : 45
REFERENCES
1. William B.Blesser, “AS System approach to Bio-medicine”, McGraw-Hill book co., New York, 1969.
2. Manfreo clynes and john H.Milsum, “Bio-medical engineering system”, McGraw-Hill book co., NewYork, 1970.
3. Douglas S.Regs, “Control theory and physiological feedback mechanism”, The William & Williams co., Baltimore, 1970.
REFERENCES
1. William B.Blesser, “AS System approach to Bio-medicine”, McGraw-Hill book co., New York, 1969.
2. Manfreo clynes and john H.Milsum, “Bio-medical engineering system”, McGraw-Hill book co., NewYork, 1970.
3. Douglas S.Regs, “Control theory and physiological feedback mechanism”, The William & Williams co., Baltimore, 1970.
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