Issue |
Title |
File |
Vol 3, No 4 (2017) |
Evaluation of effectiveness of different transport modes for regular mass freight transportation |
(Rus)
(Eng)
|
Smirnov S.A., Smirnova O.Y.
|
Vol 2, No 2 (2016) |
Evaluation of investment attractiveness of magnetic levitation technology for transport infrastructure |
(Rus)
|
Morozova Е.I.
|
Vol 5, No 1 (2019) |
Evaluation of public effectiveness of the strategy for development of speed urban transport |
(Rus)
(Eng)
|
Fedorova M.V.
|
Vol 3, No 2 (2017) |
Experience of development of special technical specifica-tions on linear electrical motors designing |
(Rus)
|
Shmatchenko V.V., Plekhanov P.A., Roenkov D.N., Ivanov V.G.
|
Vol 3, No 2 (2017) |
Experience of development of special technical specifications on maglev transportation integrated safety system |
(Rus)
|
Shmatchenko V.V., Plekhanov P.A., Roenkov D.N., Ivanov V.G.
|
Vol 3, No 2 (2017) |
Experimental investigations of the system of dynamic side stabilization of a magnetotevitational vehicle |
(Rus)
|
Zimenkova T.S., Kaznacheev S.A., Krasnov A.S.
|
Vol 2, No 1 (2016) |
Experimental studies of charge of non-superconductive magnetic energy storage |
(Rus)
|
Nikitin V.V., Sereda G.E., Sereda E.G., Sereda A.G.
|
Vol 6, No 2 (2020) |
Factors determining the formation of innovative logistics complexes |
(Rus)
|
Manova V.A., Lebedeva A.S.
|
Vol 6, No 2 (2020) |
Factors Determining the Success of HSR Building Projects |
(Rus)
|
Volkova E.M.
|
Vol 2, No 4 (2016) |
Features design and construction of artificial structures for Maglev - roads |
(Rus)
|
Talashkin G.N.
|
Vol 3, No 1 (2017) |
Features of combined effects of physical factors of wave nature on electrified railway transport on technosphere |
(Rus)
|
Apollonskiy S.M.
|
Vol 2, No 2 (2016) |
Features of design and construction maglev-road to freight |
(Rus)
|
Talashkin G.N.
|
Vol 6, No 4 (2020) |
Features of the formation of logistics centers in Germany and Italy |
(Rus)
|
Todua V.A., Belnitsky D.S.
|
Vol 6, No 4 (2020) |
Forecast demand for use magnetic levitation transport |
(Rus)
|
Fedorova M.V.
|
Vol 4, No 3 (2018) |
Forecast of Ugra transport development |
(Rus)
(Eng)
|
Bolshanik P.V.
|
Vol 4, No 1 (2018) |
Foreign experience in organizing regular pig-gyback service |
(Rus)
(Eng)
|
Skorchenko M.Y.
|
Vol 3, No 2 (2017) |
Formation of innovative strategy of development of high-speed transport in the conurbation |
(Rus)
|
FJODOROVA M.V.
|
Vol 1, No 2 (2015) |
Freight stations for lines of magnetic levitation |
(Rus)
|
Kostenko V.V., Chetchuev M.V., Fyodorov V.P., Homich D.I.
|
Vol 3, No 2 (2017) |
Full-scale dummy of electromagnetic suspension for maglev systems |
(Rus)
|
Amoskov V.M., Arslanova D.N., Belyakov V.A., Vasiliev V.N., Glukhih V.A., Kaparkova M.V., Kuzmenkov V.D., Kukhtin V.P., Lamzin E.A., Larionov M.S., Manzuk M.V., Mizintzev A.V., Nezhentzev A.N., Rodin I.Y., Savelyeva T.A., Sytchevsky S.E., Firsov A.A., Shatil N.A.
|
Vol 2, No 1 (2016) |
Functional safety electrified railways |
(Rus)
|
Apollonskiy S.M.
|
Vol 2, No 2 (2016) |
Functional safety into electrified railways |
(Rus)
|
Apollonskiy S.M.
|
Vol 2, No 4 (2016) |
Functional safety into electrified railways |
(Rus)
|
Apollonskiy S.M.
|
Vol 4, No 4 (2018) |
Gray relational analysis between the maglev-structural deformation and construction parameters of the shield tunnel crossing the shanghai maglev protected area |
(Eng)
|
Wang G., Hu S., Zeng G., Ye F., Zu W.
|
Vol 4, No 2 (2018) |
Hardware-in-the-loop simulation of high-speed maglev transportation five-segment propulsion system based on dSPACE |
(Eng)
|
Qin F., Lin Y., Lu D.
|
Vol 2, No 4 (2016) |
High temperature limit for ceramics on the copper for transport systems based on magnetic levitation |
(Rus)
|
Syromyatnikov A.G.
|
Vol 4, No 2 (2018) |
High-speed container transport system |
(Eng)
|
Kireev A.V., Kozhemyaka N.M., Kononov G.N.
|
Vol. 4, Issue 3, Suppl. 1 (2018) |
High-speed vacuum air vehicle |
(Eng)
|
Mishra R., Sharma H., Mishra H.
|
Vol 4, No 4 (2018) |
Hyperloop as an evolution of maglev |
(Eng)
|
Santangelo A.
|
Vol 6, No 3 (2020) |
Hyperloop – prediction of social and physiological costs |
(Eng)
|
Almujibah H., Kaduk S., Preston J.
|
Vol 2, No 3 (2016) |
Impossibility of superconductivity electric flow |
(Rus)
|
Fedyukin V.K.
|
Vol 5, No 2 (2019) |
Improve Current Collection in the Transport System of the Type "HYPERLOOP" |
(Rus)
(Eng)
|
Kim K.K., Kolesova A.V., Kolesov S.L.
|
Vol 6, No 1 (2020) |
Improvement of the method of determining dangerous voltage in adjacent lines of communication under magnetic influence of a tracing AC system |
(Rus)
|
Terekhin I.A., Kremlev I.A., Tarabin I.V., Abishov E.G.
|
Vol 3, No 2 (2017) |
Improving the efficiency of the process of damping mechanical systems |
(Rus)
|
Milovanova E.A.
|
Vol 2, No 2 (2016) |
Improving the transverse dynamics of high speed transport on the magnetic suspension |
(Rus)
|
Solomin A.V., Zarifyan A.A., Noskov V.N.
|
Vol 3, No 2 (2017) |
Increasing of passenger transportation speed with logistic multimodal technologies applying |
(Rus)
|
Volkova E.M.
|
Vol 6, No 4 (2020) |
Increasing the investment attractiveness of transport organizations engaged in intermodal container transport during the pandemic crisis |
(Rus)
|
Chechenova L.M.
|
Vol 6, No 3 (2020) |
Industrial uniformity or industrial diversification: the impact of hsr on the regional economy |
(Rus)
|
Kamenkov A.L.
|
Vol 4, No 2 (2018) |
Influence analysis of track irregularity on running comfort of Maglev train |
(Eng)
|
Huang J., Zhou X., Shang L., Wu Z., Xu W., Wang D.
|
Vol 3, No 3 (2017) |
Influence of development of market of freight cars operation upon operation efficiency indexes of railway transport |
(Rus)
|
Egorov Y.V., Kazanskaya L.F., Saks N.V.
|
Vol 4, No 2 (2018) |
Innovations and performance of Italian UAQ4 superconducting magnetic levitated system |
(Eng)
|
Gino D., Giovanni L.
|
Vol 3, No 2 (2017) |
Installations for levitation and melting of metals in the alternating magnetic field (Ioffe PTI design). |
(Rus)
|
Volkov M.P., Melekh B.A., Popov V.V.
|
Vol 3, No 2 (2017) |
Institutional and technical problems of magnetothevitational transport |
(Rus)
|
Zaitsev A.A.
|
Vol 5, No 1 (2019) |
Institutional forms of promotion of magnetic levitation technologies and their implementation in the economy of the Russian Federation |
(Rus)
(Eng)
|
Tretyak V.P., Lyakina M.A., Volkova E.M.
|
Vol 2, No 2 (2016) |
Integrative model of a magnetically levitated train's traction force |
(Rus)
|
Poljakov V.A., Hachapuridze N.M.
|
Vol 3, No 1 (2017) |
Integrative model of a magnetically levitated train's traction force |
(Rus)
|
Polyakov V.A., Hachapuridze N.M.
|
Vol 2, No 4 (2016) |
Intellectual capital formation in new economic space based on high-speed transport systems |
(Rus)
|
Palkina E.S.
|
Vol 6, No 2 (2020) |
Justification for reducing the weight of the frame of the platform car for transporting containers in modular electric freight trains |
(Rus)
|
Troitskiy P.S.
|
Vol 3, No 4 (2017) |
Justification of indicator system of social and economic efficiency of high-speed urban transport development strategy |
(Rus)
(Eng)
|
Fiodorova M.V.
|
Vol 5, No 4 (2019) |
Justification Of the need for the Construction оf the Maglev Route St. Petersburg – Sertolovo. |
(Rus)
|
Fedorova M.V.
|
Vol 5, No 3 (2019) |
Key indicators of assessment of effectiveness of railway transport innovative development strategy |
(Rus)
|
Satsuk T.P.
|
Vol 5, No 4 (2019) |
Levitation and Lateral Stabilization Device Based on a Second-Generation High-Temperature Superconductor |
(Rus)
|
Antonov Y.F.
|
Vol 5, No 2 (2019) |
Levitation Characteristics of a Transport Installation with an Electrodynamic Suspension During a Longitudinal Joint with Road Track |
(Rus)
(Eng)
|
Voevodskii K.E., Strepetov V.M., Sereda G.E.
|
Vol 1, No 1 (2015) |
Levitation gap in suspension of HTSC under the permanent magnet |
(Rus)
|
Volkov M.P., Proscurin A.A.
|
Vol 6, No 4 (2020) |
Linear asynchronous traction drive in urban rail and maglev transport systems |
(Rus)
|
Nikitin V.V., Strepetov V.M.
|
Vol 1, No 1 (2015) |
Linear electric motor with pm excitation for a freight magnetolevitation platform |
(Rus)
|
Adalev A.S., Kuchinskii V.G.
|
Vol 5, No 2 (2019) |
Linear Induction Motors without Longitudinal Edge Effect |
(Rus)
(Eng)
|
Solomin V.A., Solomin A.V., Chekhova A.A., Zamchina L.L., Trubitsina N.A.
|
Vol 6, No 1 (2020) |
Linear Vernier actuator with two movers |
(Eng)
|
Heya A., Hirata K., Niguchi N.
|
Vol 2, No 1 (2016) |
Longitudinal vibrations in electrodynamics suspension system |
(Rus)
|
Voevodskii C.E., Strepetov V.M.
|
Vol 2, No 2 (2016) |
Maglev dummy for experimental check of electrodynamic suspension performance |
(Rus)
|
Amoskov V.M., Andreev E.N., Arslanova D.N., Belyakov V.A., Vasiliev V.N., Volkov V.F., Dyomina A.A., Zapretilina E.R., Kukhtin V.P., Lamzin E.A., Lantzetov A.A., Lantzetov V.A., Larionov M.S., Mizintzev A.V., Mikhailov V.M., Nezhentzev A.N., Rodin I.Y., Savelieva T.A., Sytchevsky S.E., Firsov A.A., Chaika P.Y., Sharkov K.A., Shatil N.A.
|
Vol 4, No 3 (2018) |
Maglev freight - one possible path forward in the U.S.A. |
(Eng)
|
Wolek A.
|
Vol 2, No 2 (2016) |
Maglev suspensions of mixed type |
(Rus)
|
Amoskov V.M., Belyakov V.A., Vasiliev V.N., Glukhih V.A., Zaitzev A.A., Kukhtin V.P., Lamzin E.A., Larionov M.S., Mizintzev A.V., Nezhentzev A.N., Ovsyannikov A.D., Rodin I.Y., Sytchevsky S.E., Filatov O.G., Firsov A.A., Shatil N.A.
|
Vol. 4, Issue 3, Suppl. 1 (2018) |
Maglev trends in public transport: the perspectives of maglev transportation systems |
(Eng)
|
Kluehspies J.
|
Vol 3, No 1 (2017) |
Maglev: as a new stage of high-speed transport development |
(Rus)
|
Aksenov N.A.
|
Vol 1, No 2 (2015) |
Maglev-cobra: an urban transportation system For highly populated cityes |
(Eng)
|
Stephan R., de Andrade Junior R., Ferreira A., Costa F., Machado O.
|
Vol 4, No 3 (2018) |
Magnetic levitation as the fundamental basis for superfast vacuum levitation transport technologies |
(Rus)
(Eng)
|
Lapidus B.M.
|
Vol 5, No 2 (2019) |
Magnetic Levitation Cargo Ransport Role in World Economy |
(Rus)
(Eng)
|
Smirnov S.A., Smirnova O.Y.
|
Vol 4, No 3 (2018) |
Magnetically levitated train’s longitudinal motion (Simulation results) |
(Eng)
|
Polyakov V.A., Khachapuridze N.M.
|
Vol 3, No 1 (2017) |
Magnetothevitational transport: response to time challenges |
(Rus)
|
Zaytsev A.A.
|
Vol 3, No 3 (2017) |
Materials and technology for fabricating mechanical connectors by cold plastic deformation |
(Rus)
|
Kogan Y.D., Bogdanova N.V.
|
Vol 2, No 3 (2016) |
Mathematical model of the hybrid system of magnetic levitation energy production equipment autonomous power 97 supply systems |
(Rus)
|
Vavilov V.E.
|
Vol 6, No 2 (2020) |
Mathematical modeling of a strain gauge measurement system in MATLAB SIMULINK program |
(Rus)
|
Raianov T.A.
|
Vol 7, No 1 (2021) |
Mathematical models for calculating the quantitative characteristics of the optimal quantization of information |
(Rus)
|
Smagin V.A., Bubnov V.P., Sultonov S.K.
|
Vol. 4, Issue 3, Suppl. 1 (2018) |
Measurement of the residual stress for the bogie frame of maglev vehicle based on barkhausen effect |
(Eng)
|
Zeng J., Long Z., Ding J., Liang X.
|
Vol 6, No 4 (2020) |
Measuring the acoustic signals parameters of the defect simulator of power transformers |
(Rus)
|
Cheremisin V.T., Kuznetsov A.A., Volchanina M.A., Gorlov A.V.
|
Vol. 4, Issue 3, Suppl. 1 (2018) |
Methodological base for the implementation of the magnetic levitation transport technology project in Russia |
(Eng)
|
Igolkin G.V.
|
Vol 5, No 4 (2019) |
Methodology for assessing the economic effects of investing in digital technologies in transportation |
(Rus)
|
Guliy I.M.
|
Vol 7, No 2 (2021) |
Methodology for assessing the readiness of territories for the formation of the infrastructure of the innovative port logistics complex |
(Rus)
|
Manova V.A., Lebedeva A.S., Noviniuk O.N., Syropyatov V.V.
|
Vol 6, No 2 (2020) |
Mobile data usage in urban transport research |
(Rus)
|
Tregubov V.N.
|
Vol 5, No 2 (2019) |
Mobility on demand – vision of a flexible future urban mobility |
(Eng)
|
Kircher R., Kluehspies J., Fritz E., Koehler R.
|
Vol 6, No 3 (2020) |
Model for making decisions on renewal the railway rolling stock of a transport organization |
(Rus)
|
Palkina E.S.
|
Vol 3, No 2 (2017) |
Model of a magnetically levitated train's levitation force |
(Rus)
|
Polyakov V.A., Hachapuridze N.M.
|
Vol 3, No 3 (2017) |
Model of a magnetically levitated train's levitation force |
(Rus)
(Eng)
|
Polyakov V.A., Hachapuridze N.M.
|
Vol 2, No 2 (2016) |
Model of deformation of concrete based on flow plasticity theory for analysis of durability of plain concrete and reinforced concrete bridge constractions |
(Rus)
|
Solovyov L.Y.
|
Vol 2, No 3 (2016) |
Model of deformation of concrete based on flow plasticity theory for analysis of durability of plain concrete and reinforced concrete bridge constractions |
(Rus)
|
Solovyov L.Y.
|
Vol 7, No 1 (2021) |
Model of effective market and technology of freight railway transportation |
(Rus)
|
Belnitsky D.S.
|
Vol 6, No 4 (2020) |
Modeling and prediction of indicators of dynamics of diseases of residents of regions coronavirus COVID-19 |
(Rus)
|
Gerasimenko P.V.
|
Vol 1, No 2 (2015) |
Modern regulations of safety assurance for maglev transportation |
(Rus)
|
Shmatchenko V.V., Plekhanov P.A.
|
Vol 5, No 4 (2019) |
Modern systematization and classification of dispatch adjustment techiques |
(Rus)
|
Groshev G.M., Kizlyak O.P., Romanova I.Y., Sugorovsky A.V., Kukushkina I., Sugorovsky A.V.
|
Vol 3, No 2 (2017) |
Modern systematization of dispatch adjustment techniques |
(Rus)
|
Groshev G.M., Kizlyak O.P., Sugorovskiy A.V., Sugorovskiy A.V.
|
Vol 7, No 2 (2021) |
Modern technological and innovative solutions aimed at increasing the flow and transportation capacities of railway directions |
(Rus)
|
Voronin V.A., Kurenkov P.V., Solop I.A., Chebotareva E.A.
|
Vol 4, No 4 (2018) |
Modern trends of training specialists for innovative directions of transport development |
(Eng)
(Rus)
|
Guliy I.M., Sivertceva E.S.
|
Vol 5, No 4 (2019) |
Monitoring оf Changes in the Condition and Tendencies of Development of Maglev Transportation Systems |
(Rus)
|
Davydov A.
|
Vol 4, No 4 (2018) |
Multicriteria evaluation of the high speed rail, transrapid maglev and hyperloop systems |
(Eng)
|
Janic M.
|
Vol 4, No 2 (2018) |
Multifunctional linear induction motor with longitudinal-transverce magnetic flux for magnetic-levitational transport |
(Eng)
(Rus)
|
Solomin V.A., Solomin A.V., Koledov V.V., Trubitsina N.A.
|
Vol 4, No 3 (2018) |
MULTI® - rope-less elevator demonstrator at test tower Rottweil |
(Eng)
|
Appunn R., Frantzheld J., Jetter M., Löser F.
|
Vol 5, No 3 (2019) |
New Dzungaria Gates for wmlt-corridor: historical necessity |
(Rus)
|
Bogachev V.A., Terentyev Y.A., Koledov V.V., Bogachev T.V.
|
Vol. 4, Issue 3, Suppl. 1 (2018) |
New technology for manufacturing inductors of linear induction motors for magnetic-levitation transport |
(Rus)
(Eng)
|
Solomin V.A., Solomin A.V., Trubitsina N.A., Zamchina L.L., Chekhova A.A.
|
Vol 4, No 1 (2018) |
Non-destructive methods of concrete quality control as factor in reliability of concrete and reinforced concrete structures in transport facilities |
(Rus)
(Eng)
|
Belentsov Y.A., Kazanskaya L.F.
|
Vol 5, No 2 (2019) |
On Assessment of Influence of Innovation Activities Results on the National Economy |
(Rus)
(Eng)
|
Sokolova I.V.
|
Vol 5, No 4 (2019) |
On the Creation of a High-Speed Transport Highway in St. Petersburg |
(Rus)
|
Senkin N.A., Filimonov A.S., Kharitonov K.E., Yakovlev V.V., Bondareva E.O., Merkulova M.V., Medvedev N.E.
|
101 - 200 of 320 Items |
<< < 1 2 3 4 > >> |