Relevant bibliographies by topics / Highway-railroad crossings

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  1. Journal articles

Academic literature on the topic 'Highway-railroad crossings'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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Journal articles on the topic "Highway-railroad crossings"

1

Noyce, David A., and Daniel B. Fambro. "Enhanced Traffic Control Devices at Passive Highway-Railroad Grade Crossings." Transportation Research Record: Journal of the Transportation Research Board 1648, no. 1 (1998): 19–27. http://dx.doi.org/10.3141/1648-03.

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More than 2,000 crashes and 239 fatalities were reported at public passive highway-railroad grade crossings in 1994. Driver error, often due to a breakdown in communication between traffic control devices and the driver, is commonly cited as a factor in passive grade crossing crashes. The objective of this study was to evaluate an improved method for communicating with drivers in an effort to improve safety at passive grade crossings. Specifically, this study evaluated the effectiveness of a vehicle-activated strobe light and supplemental sign as enhancements to the railroad advance (W10-1) warning sign at a passive highway-railroad grade crossing near Temple, Texas. Three study methods were used to evaluate this enhanced sign system including a before and after speed study, a driver survey, and a driver observation study. The results indicated that average speeds on the approaches to the grade crossing were lower after the installation of the enhanced sign system. Drivers responded favorably to the enhanced sign system, and no adverse driver reactions were observed at the onset of the flashing strobe light. The strobe light was effective in directing drivers’ attention to the railroad advance warning and supplemental signs. The enhanced sign system appears to increase driver awareness of the passive grade crossing, cause some drivers to approach the grade crossing with additional caution, and reduce the average speed near the nonrecovery zone on both approaches.
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2

Pasha, Junayed, Maxim A. Dulebenets, Olumide F. Abioye, et al. "A Comprehensive Assessment of the Existing Accident and Hazard Prediction Models for the Highway-Rail Grade Crossings in the State of Florida." Sustainability 12, no. 10 (2020): 4291. http://dx.doi.org/10.3390/su12104291.

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Accidents at highway-rail grade crossings can cause fatalities and injuries, as well as significant property damages. In order to prevent accidents, certain upgrades need to be made at highway-rail grade crossings. However, due to limited monetary resources, only the most hazardous highway-rail grade crossings should receive a priority for upgrading. Hence, accident/hazard prediction models are required to identify the most hazardous highway-rail grade crossings for safety improvement projects. This study selects and evaluates the accident and hazard prediction models found in the highway-rail grade crossing safety literature to rank the highway-rail grade crossings in the State of Florida. Three approaches are undertaken to evaluate the candidate accident and hazard prediction models, including the chi-square statistic, grouping of crossings based on the actual accident data, and Spearman rank correlation coefficient. The analysis was conducted for the 589 highway-rail grade crossings located in the State of Florida using the data available through the highway-rail grade crossing inventory database maintained by the Federal Railroad Administration. As a result of the performed analysis, a new hazard prediction model, named as the Florida Priority Index Formula, is recommended to rank/prioritize the highway-rail grade crossings in the State of Florida. The Florida Priority Index Formula provides a more accurate ranking of highway-rail grade crossings as compared to the alternative methods. The Florida Priority Index Formula assesses the potential hazard of a given highway-rail grade crossing based on the average daily traffic volume, average daily train volume, train speed, existing traffic control devices, accident history, and crossing upgrade records.
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3

Yeh, Michelle, and Jordan Multer. "Applying a Sociotechnical Framework for Improving Safety at Highway-Railroad Grade Crossings." Proceedings of the Human Factors and Ergonomics Society Annual Meeting 51, no. 24 (2007): 1550–54. http://dx.doi.org/10.1177/154193120705102408.

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To understand drivers' decisions and actions at grade crossings, we examined human factors contributing to noncompliance at grade crossings using a sociotechnical framework. This perspective allows driver behavior at grade crossings to be examined not as individual elements but rather as a function of how each element interacts with other elements within the system. In this paper, we present a model that addresses driver decision-making at grade crossings at a systems level. We identify and describe four elements of the grade crossing system influencing driver compliance: the design of the grade crossing environment, driver characteristics, the role of organizations and management, and social and political forces. We then apply the model to identify how failure to consider safety from a systems perspective contributed to the grade crossing accident that occurred in Fox River Grove, Illinois, in 1995.
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4

Estes, R. Matthew, and Laurence R. Rilett. "Advanced Prediction of Train Arrival and Crossing Times at Highway-Railroad Grade Crossings." Transportation Research Record: Journal of the Transportation Research Board 1708, no. 1 (2000): 68–76. http://dx.doi.org/10.3141/1708-08.

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There are many issues related to highway–railroad grade crossings. For historic and practical reasons, trains have the right-of-way at grade crossings, which results in delays to motorists. In addition, the differential in size, speed, and stopping ability between motor vehicles and trains raises many serious safety concerns. Historically, the methods used to address these delay and safety problems at grade crossings have been reactive in nature. For example, the Manual on Uniform Traffic Control Devices specifies a minimum of 20 s of warning time for active warning devices at grade crossings. Intelligent transportation system (ITS) technology offers potential solutions for increasing the warning time at grade crossings. Advanced on-board devices and off-track detection equipment can allow train position and speed to be monitored. This information can be shared through wireless and wireline telecommunications equipment being deployed for ITS. Transportation management center personnel can then predict the arrival and crossing times of trains at grade crossings. It is hypothesized that if the warning time could reliably be increased, the traffic-operation strategies in the vicinity of grade crossings could be more proactive, reducing delay to motorists and increasing safety for both trains and automobiles. The research focuses on a second-generation technology approach to an advanced prediction of train arrival and crossing (gate-up and gate-down) times at highway–railroad grade crossings, including problems faced at grade crossings, background on detection and prediction technology for grade crossings, the train monitoring system used as the test bed for the research, the development of the methodology, the results of the analysis, and the conclusions of the research and potential applications for the model.
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5

Carlson, Paul J., and Kay Fitzpatrick. "Violations at Gated Highway–Railroad Grade Crossings." Transportation Research Record: Journal of the Transportation Research Board 1692, no. 1 (1999): 66–73. http://dx.doi.org/10.3141/1692-08.

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6

Khattak, Aemal J., and Gregory A. McKnight. "Gate Rushing at Highway–Railroad Grade Crossings." Transportation Research Record: Journal of the Transportation Research Board 2056, no. 1 (2008): 104–9. http://dx.doi.org/10.3141/2056-13.

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7

Cho, Hanseon, and Laurence R. Rilett. "Modeling Signalized Intersections near Highway–Railroad Grade Crossings." Transportation Research Record: Journal of the Transportation Research Board 1973, no. 1 (2006): 149–56. http://dx.doi.org/10.1177/0361198106197300118.

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8

Mortimer, Rudolf G. "Oh! Say, Can You Hear that Train Coming to the Crossing?" Proceedings of the Human Factors and Ergonomics Society Annual Meeting 38, no. 14 (1994): 898–902. http://dx.doi.org/10.1177/154193129403801422.

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How effective is the horn on trains in alerting motorists, cyclists and pedestrians of the approach of a train to a highway-railroad crossing? Road users become aware of trains approaching crossings either by seeing them, hearing the warning horn or by warning devices at the crossing. Auditory warnings have some advantages over others, but practical problems of sound transmission and the noise environment of road users limit their effectiveness. Factors that affect the audibility of train horns and crossing bells are discussed. Train and crossing bells are generally effective for persons in their immediate environment, but are relatively ineffective for occupants of closed vehicles. Because of the lack of reliability of the detectability of auditory warning signals provided to motorists and others approaching rail-highway crossings, they should visually scan the tracks to ascertain the presence of a train.
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9

Linja, Anne, Pasi Lautala, David Nelson, and Elizabeth S. Veinott. "Rail Safety: Examining the Effect of Driving Experience and Type of Crossing on Safety Concerns." Proceedings of the Human Factors and Ergonomics Society Annual Meeting 64, no. 1 (2020): 1461–65. http://dx.doi.org/10.1177/1071181320641348.

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Vehicle-train collisions at Highway-Rail Grade Crossings continue to be a safety concern and despite improvements in warnings, many of these incidents are attributed to human error. In some cases, distractions other than railroad traffic, such as nearby highway intersections, may create additional burdens for drivers’ decision making. In this study, we systematically examined safety concerns across two types of Highway-Rail Grade Crossings: non-short storage and short-storage. In a controlled experiment, 48 college-aged drivers viewed a series of driving scene images and identified, rated, and explained up to five safety concerns in each image. Participants reported more safety concerns and higher average severity of those concerns for short-storage rail crossings than non-short storage, but these findings did not depend on rural vs. urban driving experience. Content analysis of the 1,230 safety concerns using chi-squared analysis revealed differences in attention to dynamic safety concerns by rail crossing type, but not to static concerns.
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10

Stephens, Burton W., and Gary Long. "Supplemental Pavement Markings for Improving Safety at Railroad–Highway Grade Crossings." Transportation Research Record: Journal of the Transportation Research Board 1844, no. 1 (2003): 18–24. http://dx.doi.org/10.3141/1844-03.

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An evaluation was performed of special X-box pavement marking configurations at railroad–highway grade crossings, originally used in several European countries. The intent is to provide motorists with supplemental visual cues about whether sufficient space is available for safe storage of a vehicle beyond the track for a motorist to proceed across. It is intended for application where nearby intersections can cause queues to back up to the track. These conspicuous markings, configured as an X in a box, were tested at two Florida locations, one in an urban area and one in a rural area, over a 1 ½-year period. The rates of cars hazardously stopping on or closely adjacent to the railroad tracks at the crossings were compared under pre- and postinstallation conditions. Results at the rural location showed a decline of more than 60% in hazardous stoppage rates over an extended period. No significant differences were found between the pre- and postinstallation tests at the urban location. A control site was utilized near the crossing in the urban location, and it showed no significant differences between the two test periods that were concurrent with the analysis at the treated site. Recommendations are provided for application of these markings at grade crossing sites in rural and urban locations.
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