ИСТИНА

https://www.cospar-assembly.org/user/download.php?id=25340&type=abstract&section=congressbrowser The problem of hypomagnetic conditions impact on humans and biological elements of life support systems already had considered in our reports at COSPAR. A detailed overview of space magnetobiology problems is contained in [1]. The report clarifies some requirements to proposed by us an individual analogue of the geomagnetic field (IA GMF) for a person at during a space mission outside the Earth’s magnetosphere. Such a system will have a number of significant advantages in comparison with the collective system of the GMF analogue proposed earlier in [2]. The possibility of protecting a person during near-Earth flight from the effects of variations in the GMF level due to a systematic change of the ship (station) geomagnetic coordinates, as well as from disturbances in the magnetosphere, is also considered. The undesirable effect of these factors on the state of a person onboard and their consequences during post-flight rehabilitation has already been shown in a number of works (for example, in [3]). The report proposes to use the IA GMF with control from an electronic system that supports the total magnetic field at a given level. Thus, these problems of space magnetobiology are solved in principle. References: 1. Trukhanov K.A. Cosmic problems of magnetobiology. Proceedings of the International Conference “The influence of space weather on man in space and on Earth”. June 4-8. 2012. V. 1. P. 249-268. Publisher IKI. 2013. 2. Lugansky L.B., Trukhanov K.A. Creating an analog of the geomagnetic field in the habitable volume of an interplanetary ship // Aviakosm. and ecol. med. 2008. V. 42. No. 6/1. P. 54-56. 3. Baevsky R.V., Petrov V.M., Chernikova A.G. Regulation of autonomic nervous system in space and magnetic storms // Adv. Space Res. 1998.V.22, P. 227-234.