Application of Computer-Assisted Technologies to Optimization of Medical Care Measures in Piloted Space Exploration Missions

Gazenko, O.G., Grigor’ev, A.I., and Egorov, A.D., Reaction of the human body in space flight, in Fiziologicheskie problemy nevesomosti (Physiological Problems of Weightlessness), Moscow, 1990, pp. 15–48.

Pestov, I.D., Medical approaches to technogenic risks mitigation: instructive experience of space medicine, Aviakosm. Ekol. Med., 2006, vol. 40, no. 1, pp. 48–54.

Bogomolov, V.V. and Samarin, G.I., Medical support of the health and safety of the crews of the International Space Station, in Mezhdunarodnaya kosmicheskaya stantsiya. Rossiiskii segment. Kosmicheskaya biologiya i meditsina (The International Space Station, Russian Segment, Space Biology and Medicine), Moscow, 2011, vol. 1, pp. 33–50.

Goncharov, I.B., Kovachevich, I.V., and Vorob’ev, V.E., Medical assistance in flight, medical support at the landing site of the descent vehicle when the crew landed, in Mezhdunarodnaya kosmicheskaya stantsiya. Rossiiskii segment. Kosmicheskaya biologiya i meditsina (The International Space Station, Russian Segment, Space Biology and Medicine), Moscow, 2011, vol. 1, pp. 159–167.

Alferova, I.V., Krivolapov, V.V., Turchaninova, V.F., and Khorosheva, E.G., Monitoring the health of astronauts in space flights on the International Space Station, in Mezhdunarodnaya kosmicheskaya stantsiya. Rossiiskii segment. Kosmicheskaya biologiya i meditsina (The International Space Station, Russian Segment, Space Biology and Medicine), Moscow, 2011, vol. 1, pp. 51–62.

Grigor’ev, A.I., Orlov, O.I., and Potapov, A.N., Concept of the telemedicine system for a Martian mission, Aviakosm. Ekol. Med., 2005, vol. 39, no. 4, pp. 19–24.

Dushenko, A.G., Arestov, D.S., Kotov, A.G., and Gorbachev, E.B., Multifunctional information system for support of crew activity, Program. Prod. Sist., 2013, no. 3, pp. 54–61.

Kravchenko, S.I., Andreev, D.A., Brun’ko, D.V., and Gorbachev, E.B., The onboard multifunctional information complex of the Russian segment of the International Space Station, Program. Prod. Sist., 2015, no. 4 (112), pp. 45–47.

Ushakov, I.B., Dashevskii, V.P., Polyakov, A.V., et al., Application of assistive and information technologies for improvement for medical care of cosmonauts in the Russian sector of the International Space Station, Biotekhnosfera, 2013, no. 4 (28), pp. 18–33.

Goncharov, I.B., Zhernavkov, A.F., and Kovache-v-ich, I.V., Analysis of the incidence in space flight, in Kosmicheskaya biologiya i Meditsina. Tom 4. Zdorov’e, rabotosposobnost’, bezopasnost’ kosmicheskikh ekipazhei (Space Biology and Medicine, Vol. 4: Health, Work Performance, and Safety of Space Crews), Moscow, 2001, part 3, ch. 5, pp. 145–164.

Bogomolov, V.V. and Egorov, A.D., Enhancement of the medical care system for crews on space missions, Aviakosm. Ekol. Med., 2013, vol. 47, no. 1, pp. 5–12.

Zharikov, O.G., Kovalev, V.A., and Litvin, A.A., Modern possibilities of the use of some expert systems in medicine, Vrach Inf. Tekhnol., 2008, no. 5, pp. 24–30.

Lopin, V.N. and Prilutskaya, I.E., About the neural network approach of decision support by outpatient services, Vestn. Nov. Med. Tekhnol., 2006, vol. 13, no. 2, pp. 160–161.

Sosnin, P.I., Kasapenko, D.V., and Pavlygin, E.D., Question-answer approach to decision-making tasks, Avtom. Protsess. Upr., 2008, no. 2, pp. 25–33.

Fedyanin, V.V., Models and algorithms for the diagnostics of pyelonephritis based on fuzzy logic of decision-making in the heterogeneous space of informative features, Extended Abstract of Cand. Sci. (Eng.) Dissertation, Kursk, 2016. http://search.rsl.ru/ru/record/01006646716.