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Computer-aided model construction and database design of railway yard information

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Railway yard is the basic composition unit of railways, therefore, the efficiency and quality of railway yard design have a crucial effect on the construction and operation of railways. Plane design is the basis and core of railway yard design, consequently, it is significant to research plane design of railway yard. In this study, through analysis and summary of the research status as well as integrated application of computer technology and railway yard plane design methods, we researched and developed railway yard plane design system based on AutoCAD platform. According to the characteristics of railway yard plane design, we constructed the information model based on which we established specialized database, with the information data organized and managed efficiently; moreover, we put forward methods of constructing geometric models of the plane equipment, meanwhile, we did a focused research on associated design of yard equipment and preliminarily realized linkage design of planar yards.
Rocznik
Strony
71--78
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
  • School of Computer and Information Engineering, Yibin University, Yibin Sichuan, China
autor
  • Jilin Railway Technology College, Jilin, China
Bibliografia
  • [1] DURMUŞ, M. S., YILDIRIM, U., & SÖYLEMEZ, M. T., 2010. Signalization and interlocking design for a railway yard: A supervisory control approach by enabling arcs. In The 7th International Symposium on Intelligent and Manufacturing Systems. IMS 2010.
  • [2] GAMON, W., 2015. Movement analysis of cooperating railway buffer heads. Archives of Transport, 33(1), pp. 7-15.
  • [3] GAO, F., ZHANG, D.W., ZHANG, J.G., 2011. Induction hardening and deformation control of rail components for high-speed railway turnout. Heat Treatment of Metals, 36(3), pp. 103-105.
  • [4] KARDAS-CINAL, E., 2014. Selected problems in railway vehicle dynamics related to running safety. Archives of Transport, 31(3), pp. 37-45.
  • [5] KRISHNAPILLAI, R., ZEID, A., 2006. Mapping Product Design Specification for Mass Customization. Journal of Intelligent Manufacturing, 17(1), pp. 29-43.
  • [6] LI, X., ZHANG, J., FAN, X., 2015. Computer Aided Railway Yard Design. C. International Conference on Transportation Engineering 2009ASCE, pp. 451-457.
  • [7] LIANG, M. A., GUO, J., CHEN, G. W., 2013. Design of Wagon-Flow Simulation System of Railway Marshalling Yard Based on J2EE. Journal of System Simulation, 25(5), pp. 1083-1089.
  • [8] LIU, M., NING, T., ZHU, Z., 2012. Research and development on computer aided design and optimization system of steel grating. Journal of Graphics, 33(4), pp.59-63.
  • [9] PENG, B., ZHANG, N., & GAO, Y. L., 2014. Static and Dynamic Analysis of Railway Reinforced System with Cross-Beams. Mathematical Problems in Engineering, 2014.
  • [10] QING-YUAN, X, 2003. Analysis of Longitudinal Force and Displacement of Seamless Turnout with Finite Element Methodology. China Railway Science, 24(6), pp. 36-40.
  • [11] ROANES-LOZANO, E., ROANES-MACÍAS, E., LAITA, L.M., 2002. A computer algebra approach to the design of routes and the study of their compatibility in a railway interlocking. Mathematics & Computers in Simulation, 58(01), pp. 203-214.
  • [12] THURAISINGHAM, B., 2007. Security and privacy for multimedia database management systems. Multimedia Tools & Applications, 33(1), pp. 13-29.
  • [13] YANG, T., 2006. Recognizing of the Sketch of the Station Bottleneck and Its Optimized Design Model Based on Constrained Reasoning. Journal of the China Railway Society, 28(2), pp. 1-6.
  • [14] YUAN, C., WU, Q., YUAN, H., & FENG, Z., 2014. Optimization of Urban Public Transport Network Considering Rail Transit Interaction Effect. Journal of Highway & Transportation Research & Development, 31(8), pp.119-125.
  • [15] ZHAI, W., JIN, X., ZHAO, Y., 2010. Some typical mechanics problems in high-speed railway engineering. Advances in Mechanics, 40(4), pp. 358-374.
  • [16] ZHOU, X., 2013. Formal method of product design in mass customization based on theory of polychromatic sets. Application Research of Computers, 30(11), pp. 3362-3357.
  • [17] ZHU, G., 2008. Arithmetic Design in Inspecting Consistency of Railway Signal Station's Graph. Computer Measurement & Control, 16(10), pp.1382-1379.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4f794637-a2c1-43c2-a977-b74e1916f4e2
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