A.M. Karachevcev, V.N. Zinin, N.G. Krivonosov, V.A. Prigotskiy, V.A. Sorokin, V.V. Sosulnikov, A.D. Shimanskiy

Accuracy of trajectory measurements is considered to be one of the main problems of modern radiolocation. Measurement accuracy of units of arc seconds is desired during angular coordinates determination and units of centimeters during space objects ranging. Solution of this problem is largely dependent on how accurate the impact of atmospheric and astrophysical factors on trajectory measurements is taken into account. Results of conducted research in the field of astrorefractometry made it possible to improve calculation accuracy of correction for the impact of atmospheric radiowaves refraction (up to units of arc seconds for centimeter wavelength band). This achievement was made due to use of refraction correction calculation algorithm. This algorithm employs usage of multilayer atmosphere model closest to real one in the region of radar location. This model is acquired just before trajectory measurements session. The possibility of angular coordinates measurement with desired accuracy not less than tens of arc seconds in centimeter band were proved by the results of practical trajectory measurements