Background: The complex of issues arising when considering possible options for the implementation of Eurasian transcontinental high-speed land transport corridors operating on the basis of vacuum magnetic-levitation technologies is analyzed. The exclusivity of Russia’s geographical position in a substantial part lies in the fact that it is through its territory that China can be directly linked by these corridors to Western Europe and also to North America, the rationale is done.
Aim: Possible routes connecting Beijing and Shanghai with Moscow are analyzed. Transport highways of a truly innovative type will solve the urgent task of geopolitical level - to organize the states located on the Eurasian continent in a qualitatively new civilizational construction. The purpose of the research is as follows: to develop methods of solving the problems of finding optimal variants for the location of high-speed land transport corridors using computer mathematics systems. This should take into account the features of the territory, through which the transport route is planned to be carried out.
Methods: The economic, political, logistical, geographical, technical and technological aspects of these projects are discussed. Optimization methods are used, in particular, the calculus of variations.
Results: After the creation of a sufficiently informative and detailed informal picture, the basics of the corresponding mathematical models are constructed.
Conclusion: The historical area of Dzungaria is considered as the location of the main intermediate terminal for high speed vacuum magnetic levitation transport.