Bogatyonkova A. Computer complex for simulation dynamics of physiological human state working indoors

Українська версія

Thesis for the degree of Candidate of Sciences (CSc)

State registration number

0411U003114

Applicant for

Specialization

  • 05.13.09 - Медична та біологічна інформатика і кібернетика

18-04-2011

Specialized Academic Board

Д 26.171.03

Essay

The thesis is dedicated to the creation of new computer complex for simulation dynamics of physiological human state working indoors. Complex takes into account the heterogeneity of the room, the person's location in the room, the size and characteristics of the room, the person's characteristics, groups of person's clothes, the degree of physical activity, the reaction of thermoregulation, cardiovascular, nervous and respiratory systems, water-salt metabolism under the influence of long- and short-wave radiation. To achieve these goals and objectives complex of dynamic models human's heat exchange was developed. The computer complex takes into account temperature heterogeneity and geometry characteristics of the room, the person's location. This allows us to simulate the effect of long-wave radiation on human working indoors. Class of the human's thermoregulation and heat exchange multiсompartmental models has been improved, in relation to the influence of long-and short-wave solar radiation. This class has been extended to the new class of forecast models the thermophysiological human's state working indoors. First developed and implemented an information module for estimating human's thermal comfort in the room. It takes into account the impact of long-and short-wave solar radiation on the human working indoors. The computer technology forecasting function of the human's state working indoors has been further developed. The main difference is that it takes into account the reaction of the nervous system, the system of water-salt metabolism, respiratory system, cardiovascular system and thermoregulation. It allows us effectively to evaluate thermophysiological human's state working indoors. First developed and implemented a module for evaluating thermal comfort of human. It can be used in the design of buildings, airplane's cabin, car interiors, hospitals, health institutions and other facilities for the prevention of damaging environmental factors.

Files

Similar theses