Development of methods for the design and mathematical support of an on-board technical system to maintain the efficiency of astronauts in the conditions of a habitable lunar base
Authors: Baranov M.S.
Published in issue: #9(165)/2025
DOI: 10.18698/2308-6033-2025-9-2478
Category: Aviation and Rocket-Space Engineering | Chapter: Design, Construction, Production, Testing, and Operation of Aircraft
The paper discusses the relevance of using an onboard technical system for maintaining spatial orientation in altered gravity conditions and for rehabilitation upon return to Earth. The spaceflight medical and technical support system is part of the life support system complex and serves to ensure the normal functioning of crew members. In connection with the change of gravity, the coordinated interaction of sensory systems providing motor control process is disrupted, significant shifts occur in the state of the executive muscular apparatus. The task of conducting rehabilitation activities arises. The design of the support, thanks to the new design and materials, will improve the efficiency of recovery.
EDN TMLOCJ
References
[1] Baranov M.S., Strogonova L.B. Methods of mathematical modeling in determining the position of the center of gravity with considering blood redistribution in the lower limb of cosmonauts in the “STABILO” experiment. Scientific and Technical Volga Region Bulletin, 2022, no. 6, pp. 9–12.
[2] Strogonova L.B., Vasin Yu.A., Baranov M.S., Safronova K.P. The structure of the decision support system (DSS) for medical and technical support of the inhabited lunar base. Scientific and Technical Volga Region Bulletin, 2023, no. 6, pp. 114–117.
[3] Afonichev N.K., Baranov M.S., Vasin Yu.A. Application of methods of mathematical modeling in determining the methods of positioning the triceps muscle of the leg of astronauts in conditions of altered gravity. Scientific and Technical Volga Region Bulletin, 2023, no. 6, pp. 34–37.
[4] Strogonova L.B., Baranov M.S., Vasin Yu.A. Review of methods of mathematical signal processing applied in a non-solid support with biological feedback in conditions of an inhabited lunar base. Scientific and Technical Bulletin of the Volga Region, 2024, no. 3, pp. 59–61.
[5] Norov R.Z., Strogonova L.B., Baranov M.S. Mathematical modeling of blood supply to the austronaut in the rehabilitation period. Scientific and Technical Volga Region Bulletin, 2025, no. 4, pp. 80–84.
[6] Strogonova L.B., Vasin Yu.A., Garduño R.A., Knyazev A.N. Standardization of equipment and methods of medical control in manned space flights and issues of telemedicine. Quality and Life, 2020, no. 1 (25), pp. 45–53. DOI: 10.34214/2312-5209-2020-25-1-45-53
[7] Knyazev A.N., Strogonova L.B., Litvina D.V. Decision support system for improving the quality of medical control in interplanetary manned space missions. Quality and Life, 2017, no. 3(15), pp. 33–40.
[8] Litvina D.V., Strogonova L.B., Gushchin V.I. Quality issues of processing and analysis of psychophysical studies for emergency prevention in long-duration spaceflight simulation. Quality and Life, 2016, no. 3, pp. 36–38.
[9] Strogonova L.B., Koloteva M.I. Problems of creation of artificial gravity for the piloted space objects. Quality and life, 2016, no. 4 (12), pp. 401–407 (Scientific Papers of Academy of Quality Problems).
[10] Shevchenko I.V., Rogalev A.N., Shevchenko M.I., Strogonova L.B., Yaropolov V.I. Application of additive laser technologies for full-scale modeling in the design of cooled gas turbine blades. International Journal of Mechanical Engineering and Technology, 2018, no. 11, vol. 9, pp. 2097–2105.