Issue 3 (205), article 5


Cybernetics and Computer Engineering, 2021, 3(205)

YERMAKOVA I.I., Full Professor, DSc (Biology),
Leading Researcher of Complex Research
of Information Technologies Department
ORCID: 0000-0002-9417-1120

BOGATONKOVA A.I., Ph.D. (Engineering),
Senior Researcher,
Complex Research of Information Technologies Department
ORCID: 0000-0002-7536-5958

NIKOLAENKO A.Yu., Ph.D. (Engineering),
Complex Research of Information Technologies Department
ORCID: 0000-0002-2402-2947

TADEEVA Yu.P., Ph.D. (Engineering), Senior Researcher,
Complex Research of Information Technologies Department
ORCID: 0000-0001-5418-2848

Junior Researcher,
Complex Research of Information Technologies Department
ORCID: 0000-0002-9019-4894

Complex Research of Information Technologies Department
ORCID: 0000-0001-9712-6045

International Research and Training Center for Information Technologies
and Systems of the National Academy of Sciences of Ukraine
and Ministry of Education and Science of Ukraine,
40, Acad. Glushkov av., Kyiv, 03187, Ukraine


Introduction. Rapidly evolving Mobile health (m-health) includes mobile phones, patient monitors, personal digital assistants, and other wireless devices for tracking certain data, such as fitness level, heart rate, medication dosage, sleep cycles, and more. This helps patients control their health, which is important in the face of growing medical shortages. Devices and applications help healthcare providers make visits / appointments and collect patient data.

An important means of person-centered is the creation of combined information and computer systems that allow patients to independently monitor vital indicators of their own health, and doctors – to monitor the health of patients remotely and analyze the results of monitoring using mobile applications for timely and effective adjustment of treatment and prevention measures.

The purpose of the article is to develop m-health technology to assess the risk of deterioration of human health in extreme environmental conditions. To do this, a computer module for determining the impact of the environment on the thermal state of man has been developed.

Conclusions. The use of a complex method of modeling in combination with modern computer technology makes it possible to study the processes of heat exchange between humans and the environment, given the huge number of many regulatory reactions and physiological processes.

The technology takes into account more than 490 indicators of man and environment, including: anthropometric data, anatomical parameters, biophysical characteristics, basic physiological characteristics, human adaptive properties, environmental characteristics and duration of human stay in selected conditions.

The developed m-health technology for forecasting the human condition in extreme environmental conditions is a program based on a set of mathematical models of human thermoregulation, which makes it possible to determine a number of important physiological factors. The main task of the program is to prevent damage to human health in extreme environmental conditions during exercise. The application makes it possible to predict the dynamics of thermoregulatory physiological reactions of a person during heat.

The mobile application issues a conclusion about the danger or safety of the planned physical activity under the given environmental conditions.

Keywords: simulation, computer module, extreme impact, environment

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Received 03.06.2021