UNIT 1:
Open and Closed loop Systems
Modeling of control system
Modeling of control system II
Block diagram Reduction Technique
Linear models of physiological systems
Physiological control systems
Difference between engineering and physiological control system.
UNIT 2:
Stability of control system
Routh- Hurwitz criteria of stability
Time response of first order system
Time response of second order system
Time domain specifications
Steady state error constants
UNIT 3:
Frequency response analysis
Frequency domain specifications
Nyquist stability criterion
UNIT 4:
Distributed parameter versus lumped parameter models
Model development of Cardiovascular system- Heart model
Lung tissue visco-elasticity
Interaction of Pulmonary and Cardiovascular models
Regulation of ventilation
Regulation of cardiac output
UNIT 5:
Simple models of muscle stretch reflex action
Study of steady state analysis of muscle stretch reflex action
Study of steady state analysis of muscle stretch reflex action II
Study of transient response analysis of neuromuscular reflex model action
Study of transient response analysis of neuromuscular reflex model action II
Study of frequency response of circulatory control model
Study of frequency response of circulatory control model II
Stability analysis of Pupillary light reflex I
Stability analysis of Pupillary light reflex II
CBS 1 : Bio control in Antibiotic Resistance
CBS2: Immunotherapy and Bio control
