Title :
Modeling of respiration and estimation of pulmonary elastance
Author :
Kanae, S. ; Muramatsu, K. ; Yang, Z.-J. ; Wada, K.
Author_Institution :
Dept. of Electr. & Electron. Syst. Eng., Kyushu Univ., Japan
Abstract :
For setting appropriate respiratory conditions to fit each patient who is receiving artificial respiration treatment, it is very important to build a respiratory model of lung that describes the dynamics of respiration. In this paper, a new respiratory model is proposed, which is a second order nonlinear differential equation with elastic and resistive coefficients described by polynomials of pulmonary volume. The model is able to describe the nonlinear dynamics of respiration. By using the numerical integration technique of Sagara et al., a continuous-time identification model is derived. Then, off-line arid on-line parameter estimation algorithms are presented. The proposed model and the parameter estimation method are validated by real clinical data.
Keywords :
biomechanics; lung; nonlinear differential equations; nonlinear dynamical systems; parameter estimation; patient treatment; physiological models; pneumodynamics; artificial respiration treatment; continuous-time identification model; elastic coefficient; lung respiratory model; numerical integration technique; parameter estimation algorithm; pulmonary elastance estimation; pulmonary volume polynomials; resistive coefficient; respiration modeling; respiration nonlinear dynamics; second order nonlinear differential equation; Differential equations; Diseases; Electronic mail; Hospitals; Immune system; Lungs; Mathematical model; Medical treatment; Parameter estimation; Polynomials;
Conference_Titel :
Control Conference, 2004. 5th Asian
Print_ISBN :
0-7803-8873-9
