990 resultados para Rapid transit.
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This paper focuses on the railway rolling stock circulation problem in rapid transit networks where the known demand and train schedule must be met by a given fleet. In rapid transit networks the frequencies are high and distances are relatively short. Although the distances are not very large, service times are high due to the large number of intermediate stops required to allow proper passenger flow. The previous circumstances and the reduced capacity of the depot stations and that the rolling stock is shared between the different lines, force the introduction of empty trains and a careful control on shunting operation. In practice the future demand is generally unknown and the decisions must be based on uncertain forecast. We have developed a stochastic rolling stock formulation of the problem. The computational experiments were developed using a commercial line of the Madrid suburban rail network operated by RENFE (The main Spanish operator of suburban trains of passengers). Comparing the results obtained by deterministic scenarios and stochastic approach some useful conclusions may be obtained.
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This paper studies the disruption management problem of rapid transit rail networks. Besides optimizing the timetable and the rolling stock schedules, we explicitly deal with the effects of the disruption on the passenger demand. We propose a two-step approach that combines an integrated optimization model (for the timetable and rolling stock) with a model for the passengers’ behavior. We report our computational tests on realistic problem instances of the Spanish rail operator RENFE. The proposed approach is able to find solutions with a very good balance between various managerial goals within a few minutes. Se estudia la gestión de las incidencias en redes de metro y cercanías. Se optimizan los horarios y la asignación del material rodante, teniendo en cuenta el comportamiento de los pasajeros. Se reallizan pruebas en varias líneas de la red de cercanías de Madrid, con resultados satisfactorios.
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This paper focuses on the design of railway timetables considering a variable elastic demand profile along a whole design day. Timetabling is the third stage in the classical hierarchical railway planning process. Most of previous works on this topic consider a uniform demand behavior for short planning intervals. In this paper, we propose a MINLP model for designing non-periodic timetables on a railway corridor where demand is dependent on waiting times. In the elastic demand case, long waiting times lead to a loss of passengers, who may select an alternative transportation mode. The mode choice is modeled using two alternative methods. The first one is based on a sigmoid function and can be used in case of absence of information for competitor modes. In the second one, the mode choice probability is obtained using a Logit model that explicitly considers the existence of a main alternative mode. With the purpose of obtaining optimal departure times, in both cases, a minimization of the loss of passengers is used as objective function. Finally, as illustration, the timetabling MINLP model with both mode choice methods is applied to a real case and computational results are shown.
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Cover title.
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"Performing organization: San Francisco Bay Area Rapid Transit District"--Technical report documentation page.
Evaluation of rail rapid transit and express bus service in the urban commuter market. Final report.
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Transportation Department, Office of Transportation Planning Analysis, Washington, D.C.
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Introduction by T.C. Clarke, O. Chanute, and J.H. Linville.
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Mode of access: Internet.
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Mode of access: Internet.
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Prepared by Daniel L. Turner, consulting engineer, and John P. Hallihan, engineer in charge.
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Some numbers have special subtitles, as follows: no. 5, sect. 8/11, "proposal for installation of cable feed pipes..." no. 16/18/36/37 [combined] "proposal for construction of signal towers..." no. 18 (180th street and 239th street yards)" proposal for furnishing and erecting structural steel for inspection sheds..." no. 19/22, sect. 2. "proposal for erection of structural steel..." no. 49, sect. 1/2, "proposal for construction of concrete track floors and platforms ..." no. 49, sect. 3, "proposal for the supply of structural steel ..."
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No. 36/37 & 50, sect. 1-3. Queensboro subway.--No. 39, sect. 2. Broadway - Fourth avenue (New Utrecht avenue) - No. 43, 4/38, see no. 4/38, 43.--No. 48, sect. 1-2. Seventh avenue - Lexington avenue.--No. 50. Queensboro subway (Hunters Point avenue station
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On covers: Contract for the supply of ... [materials] Order [s] ...
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The map is pasted on the front lining paper.
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Mode of access: Internet.