| Authors |
Akulov Vladislav Alekseevich, doctor of technical sciences, professor, sub-department of information technology, Samara State Technical University (244 Molodogvardeiskaya street, Samara, Russia), Vladislav.a.akulov@gmail.com
Batishchev Vitaliy Ivanovich, doctor of technical sciences, professor, head of sub-department of information technology, Samara State Technical University (244 Molodogvardeiskaya street, Samara, Russia), vib@list.ru
Makarov Igor' Valerievich, doctor of medical sciences, professor, head of sub-department of surgical diseases № 1, Samara State Medical University (89 Chapaevskaya street, Samara, Russia), makarov-samgmu@yandex.ru
Myakishev Vladimir Mikhaylovich, candidate of technical sciences, associate professor, sub-department of theory of electrical engineering, Samara State Technical University (244 Molodogvardeiskaya street, Samara, Russia), vib@list.ru
Vidmanov Aleksey Sergeevich, engineer, Institute of Space Device Engineering, Samara State Aerospace University (34 Moscow highway, Samara, Russia), jkt13@rambler.ru
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| Abstract |
Background. The object of study is the human condition monitoring system, located in an environment with artificial gravity produced by a short radius centrifuges. The subject of the study is to create a problem-oriented information analysis system. The aim of the study is to develop a monitoring system concept, its hardware implementation and experimental verification of effectiveness in solving urgent problems of manned space flight, and regenerative medicine.
Materials and methods. The main methods of applied system analysis of a complex system of class «people – short-radius centrifuge,» the theory of decision-making, design of experiments, statistical processing of data and the construction of empirical models.
Results. A monitoring system concept, which takes into account the operating conditions of the equipment in a rotating medium, providing for a two-gang enforcement scheme. The main unit is designed as a quick-container, placed in a centrifuge and comprising measuring and recording equipment. The second unit is a portable radio transmitter serving controller. Spend an experienced operating system on real information.
Conclusions. The concept and made hardware implementation of a multi-channel system for monitoring blood pressure patients in sessions of rotation on a short radius centrifuges. It completed testing of the system in a large medical institution, which showed its high efficiency in solving problems relevant to space and regenerative medicine. Established the dependence of blood pressure in the peripheral circulatory system, the intensity of the gravity load is of considerable interest to professionals involved in the selection and training of crews, doctors, designers looking spacecraft and centrifuges. Outlined directions for further research.
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| Key words |
manned space flight, short radius centrifuge, gravity load, peripheral circulatory system, remote monitoring, the blood pressure response patterns.
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