MATHEMATICAL MODELS OF TRAJECTORY PARAMETERS OF MOBILE OBJECTS FOR EMBEDDED GLONASS SYSTEMS
The article is devoted to the problem of expanding the on-board GLONASS. It presents a mathematical model of the corresponding inverse trajectory problem, describes the technology, covers a research, and proposes procedures for increasing the solvability of the problem under the finite accuracy of measurement and numeration in a computing environment. To solve the problem, we proposed a neural-like algorithm of the Kalman type. The results of computational experiments are also presented here.
Keywords: navigation satellite system, GLONASS, inverse trajectory problem, model, motion, velocity, neural-like algorithm
