Development of model setup and study of levitation and lateral stabilization of the platform with the use of high-temperature superconductors of the 2nd generation
Antonov Y.F., Danilov N.K., Kaznacheev S.A., Melnikov Y.I., Morozova E.I., Usov D.A., Razin E.A.
Calculation of geometric dimensions of the levitation track
Kim K.K., Veshkin V.V., Kron I.R.
Supersonic land transport in the disturbed environment of the limited space: breakthrough or direct direction
Antonov Y.F., Li W.
Levitation gap in suspension of HTSC under the permanent magnet
Volkov M.P., Proscurin A.A.
Air Cushion Vehicle (ACV): History Development and Maglev Comparison
Ferreira H., Stephan R.
Development of model of freight magnetic levitation terminal
Kostenko V.V., Belykh N.S., Chetchuev M.V., Shepel A.S., Fedorov V.P.
Proposals for the construction of overpass structures and transport hubs for the high-speed highway in St. Petersburg
Senkin N.A., Filimonov A.S., Khalimbekov I.M., Kravets A.I., Mitrovska D.S., Bolshikhshapok I.S.
Perspectives for the development of high-speed transport
Chechenova L.M., Egorov Y.V., Volykhina N.V.
Research on mechanism of eddy current in rail of maglev and optimum design of electromagnet
Liang F., He Y., Zhang L.
Multifunctional linear induction motor with longitudinal-transverce magnetic flux for magnetic-levitational transport
Solomin V.A., Solomin A.V., Koledov V.V., Trubitsina N.A.
On the establishment of vacuum-levitation transport system
Lapidus B.М.
Simulation of emergency collision of a magnetic levitation train with an obstacle
Ryazanov E.M., Pavlyukov A.E.
Hyperloop – prediction of social and physiological costs
Almujibah H., Kaduk S., Preston J.
The Use of the Bilateral Levitation of Transport Pods Relatively to the Arch Trestle
Sundukov E.Y., Tarabukina N.A.
A novel design of electromagnetic levitation system for high-speed maglev train
Long Z., Wang Z., Cheng H., Li X.
A special excitation system for analysis of coupling characteristics of thrust and levitation force of maglev train
Rao J., Wang K., Wang B., Ge Q., Shi L., Li Y.
Maglev: as a new stage of high-speed transport development
Aksenov N.A.
Evaluation of public effectiveness of the strategy for development of speed urban transport
Fedorova M.V.
Retrospective and perspectives of the superconducting magnetic levitation (sml) technology applied to urban transportation
Stephan R., Costa F., Rodriguez E., Deng Z.
Training of specialists and development of design regulatory framework for Russian magnetic levitation transport systems
Shmatchenko V.V., Plekhanov P.A., Roenkov D.N., Ivanov V.G.
Magnetothevitational transport: response to time challenges
Zaytsev A.A.
Peculiarities of simulation of magnetic field in electromechanical nodes of magnetic-levitation transport system by the method of secondary sources
Filippov D.M.
Equation of motion magnetic levitation rolling stock
Pashkov N.N.
Levitation and Lateral Stabilization Device Based on a Second-Generation High-Temperature Superconductor
Antonov Y.F.
Russia’s integrated transit transport system (itts) of on the basis of vacuum magnetic levitation transport (vmlt)
Terentyev Y.A., Filimonov V.V., Malinetskiy G.G., Smolin V.S., Koledov V.V., Suslov D.A., Karpukhin D.V., Mashirov A.V., Shavrov V.G., Fongratowski S.V., Kovalev K.L., Ilyasov R.I., Poltavets V.N., Levin B.A., Davydov A.M., Koshkidko Y.S., Kurenkov P.V., Karapetyants I.V., Kryukov P.V., Drozdov B.V., Kraposhin V.S., Semenov M.Y., Nizhelskiy N.A., Solomin V.A., Bogachev V.A., Fomin V.M., Nalyvaichenko D.G., Bogachev T.V., Tochilo V.V.
Adjustable squirrel-cage linear induction motor for magnetic levitation transport
Solomin V.A., Bichilova A.A., Zamshina L.L., Trybitsina N.A.
High temperature limit for ceramics on the copper for transport systems based on magnetic levitation
Syromyatnikov A.G.
Freight stations for lines of magnetic levitation
Kostenko V.V., Chetchuev M.V., Fyodorov V.P., Homich D.I.
Design and assessment of strength magneto-levitation bogie
Beyn D.G., Ispolova E.A., Zhitkov Y.B., Sakharov R.A.
Justification Of the need for the Construction оf the Maglev Route St. Petersburg – Sertolovo.
Fedorova M.V.
Software protection of the maglev transport control system
Kornienko A.A., Glukhov A.P., Diasamidze S.V., Shatov A.M.
Characterization of levitation force for a superconducting magnetic levitation vehicle
Costa F., De Andrade R., Stephan R.
Operation of “Russian Maglev” transport system and medical-biological safety aspects
Vlasov T.D., Rubinskiy A.V.
Features design and construction of artificial structures for Maglev - roads
Talashkin G.N.
Maglev-cobra: an urban transportation system For highly populated cityes
Stephan R., de Andrade Junior R., Ferreira A., Costa F., Machado O.
Development and testing prototype of HTS module for the system of magnetic levitation of vehicle
Demina A.A., Safonov A.V., Kovalchuk O.A., Zapretilina E.R., Rodin I.Y., Andreev E.N.
Calculation, design and manufacture of heteropolar magnetic levitation and linear drive systems of maglev transport
Antonov Y.F.
On the Creation of a High-Speed Transport Highway in St. Petersburg
Senkin N.A., Filimonov A.S., Kharitonov K.E., Yakovlev V.V., Bondareva E.O., Merkulova M.V., Medvedev N.E.
A new concept of superelevation in magnetic levitation – prodynamic
Jacob A., Monteiro N.
Prospects of establishment of east-west transit transport corridor deploying magnetic levitation technology
Zaitsev A.A., Sokolova I.V.
Development of high traffic in russia: Мaglev
Aksenov N.A.
Cargo-carrying transport platform based on magnetic levitation: experience of creation
Zaitsev A.A.
Technologies of high-speed transport for The North of Russia
Kiselenko A.N., Sundukov E.Y.
Tariff policy offers on the line of magnetic levitation transport
Fedorova M.V.
Monitoring оf Changes in the Condition and Tendencies of Development of Maglev Transportation Systems
Davydov A.
High-speed vacuum air vehicle
Mishra R., Sharma H., Mishra H.
Methodological base for the implementation of the magnetic levitation transport technology project in Russia
Igolkin G.V.
Vehicle electromagnets energy supply of A.C. combined levitation and traction system
Nikitin V.V., Strepetov V.M.
Mathematical model of the hybrid system of magnetic levitation energy production equipment autonomous power 97 supply systems
Vavilov V.E.
Classification of high-speed transport systems
Solomin V.A., Noskov V.N., Solomin A.V., Pustovetov M.Y., Flegontov N.S.
Forecast demand for use magnetic levitation transport
Fedorova M.V.
Current Status and Prospects for the Development of the Integrated Transit Transport System (ITTS) of Russia on the Basis of Vacuum Magnetic Levitation Transport (VMLT)
Terentyev Y.A., Filimonov V.V., Shavrov V.G., Koledov V.V., Fongratowski S.V., Suslov D.A., Kovalev K.L., Ilyasov R.I., Poltavets V.N., Malinetskiy G.G., Kurenkov P.V., Nizhelskiy N.A., Fomin V.M., Nalyvaichenko D.G., Bogachev V.A., Solomin V.A., Kamynin A.V., Drozdov B.V., Sysoev M.A., Yаsev S.G., Samvelov А.V., Tochilo V.V., Moiseenko V.L., Osipov V.M., Alfimov A.V., Brazhnik P.A., Bogachev T.V.
The total social costs of constructing and operating a maglev line using a case study of the riyadh-dammam corridor, Saudi Arabia
Almujibah H., Preston J.
Magnetic levitation as the fundamental basis for superfast vacuum levitation transport technologies
Lapidus B.M.
Model of a magnetically levitated train's levitation force
Polyakov V.A., Hachapuridze N.M.
Vacuum magnetic levitation transport: definition of optimal characteristics
Fomin V.M., Zvegintsev V.I., Nalivaichenko D.G., Terent’ev Y.A.
Socio-economic aspects of innovation projects in the transport
Belozerov V.L.
1 - 57 of 57 Items

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