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Author: U.s. Department of Transportation
Publisher: Createspace Independent Publishing Platform
Published: 2018-07-23
Total Pages: 110
ISBN-13: 9781723441554
DOWNLOAD EBOOKActive traffic management: comprehension, legibility, distance, and motorist behavior in response to selected variable speed limit and lane control signing /
Author: William A. Perez
Publisher:
Published: 2016
Total Pages: 96
ISBN-13:
DOWNLOAD EBOOKActive traffic management (ATM) incorporates a collection of strategies allowing the dynamic management of recurrent and nonrecurrent congestion based on prevailing traffic conditions. These strategies help to increase peak capacity, smooth traffic flows, and enhance safety on busy major highways. This final report describes a series of experiments that developed and tested alternative signs focusing on lane control signs (LCS) and variable speed limit (VSL) signs and used the deployments in Minnesota and Washington as inputs to sign development. Laboratory and field studies determined both the comprehension of the ATM signs as well as their respective legibility distances. Two driving simulator studies helped determine how motorists responded to these signs in a simulated driving environment. Research results are discussed for the various studies, including legibility distances, driver behavior, speed selection, and visual clutter with respect to the used of the LCS and VSL signs.
Author: Pirkko Rämä
Publisher:
Published: 2001
Total Pages: 114
ISBN-13:
DOWNLOAD EBOOKAuthor: Curt P. Harrington
Publisher:
Published: 2015
Total Pages: 77
ISBN-13:
DOWNLOAD EBOOKStatic speed limits are the norm across the world's roadway networks. However, advances in technology and increased applications in intelligent transportation systems (ITS) provide a mechanism for upgrading traditional speed limits into an active traffic management system. More specifically, variable speed limits (VSLs) can be used in high crash severity locations and in real-time congestion and weather events to increase traffic safety and operations. Much of the available literature on VSLs focuses upon crash prediction algorithms for VSLs, simulations, and effectiveness of real-world VSL implementations. One noticeable gap in the existing literature is related to driver compliance under varied configurations of alerting drivers of the variable speeds. An additional gap in literature is related to existence of a conceptual framework for identifying optimal corridors for potential VSL implementation. Within this thesis drivers' willingness to comply with VSLs was investigated via focus groups and static surveys during the experimental process. Connections are made between driver speed choice and type of speed limit condition including uniform speed vi limit (USL) versus VSL, overhead mount versus side mount, presence of an explanatory message, and the numerical speed limit value. An analysis of the survey results was completed to isolate critical factors in VSL compliance. Opinions and perspectives on VSLs are derived through the focus group sessions Lastly, a case study approach is presented in which a region is chosen, and implementation metrics are analyzed on the major roadway networks using a GIS platform to create a composite ranking system for potential optimal VSL corridors. The study aims to be used as a foundation to justify use of certain types of VSLs in addition to creating a conceptual framework for VSL implementation zone identification.
Author: Dale L. Picha
Publisher:
Published: 1999
Total Pages: 118
ISBN-13:
DOWNLOAD EBOOKAuthor: R. F. Benekohal
Publisher:
Published: 1990
Total Pages: 76
ISBN-13:
DOWNLOAD EBOOKAuthor: Z. A. Sabra
Publisher:
Published: 1985
Total Pages: 104
ISBN-13:
DOWNLOAD EBOOKAuthor: Kathleen A. Harder
Publisher:
Published: 2012
Total Pages: 72
ISBN-13:
DOWNLOAD EBOOKA fully interactive PC-based STISIM driving simulator was used to test the effectiveness of Intelligent Lane Control Signals (ILCS). The participants were 160 licensed drivers from four age groups: 18-24, 32-47, 55-65, and 70+ years of age. Each participant drove three times in a counterbalanced order. In each trial, after driving five miles in the center lane of a six-lane highway where the speed limit was 65 mph, they encountered five sets of ILCSs that occurred at half-mile intervals. These ILCSs presented (1) 45-mph speed limit messages; (2) 35-mph speed limit messages; (3) a yellow lane closure warning; (4) one of three merge messages that used a diagonal arrow, or words, or dynamic chevrons to indicate that drivers should move from the center lane; (5) a red lane closure warning. Analysis of lane position data showed that the diagonal arrow merge sign was the most effective; participants moved from the center lane 266 feet before reaching the diagonal arrow merge sign, 123 feet before reaching the dynamic arrow merge sign, and 54 feet before the merge sign with words. Analysis of driving speed data indicated that the speed limit signs were effective. Before the 45-mile speed limit was visible, participants drove at 63 mph. When the 45-mph speed limit was visible, they reduced speed by approximately 10 mph. Then on the approach to the 35-mph speed limit, they reduced speed by a further 14 mph-on average, they were driving at 38.7 mph shortly after passing the 35-mph speed limit.
Author: Yanfei Sui
Publisher:
Published: 2013
Total Pages: 213
ISBN-13: 9781303737176
DOWNLOAD EBOOKSpeed, speed variation, and speed compliance are important factors related to both frequency and severity of traffic crashes. Decreasing the speed variation and increasing the driver compliance levels have been realized as effective methods to improve the traffic safety. Variable speed limits (VSL) systems along rural roadways are an operational strategy used to address speed related safety problems. VSL systems can aid drivers in selecting safe speeds for the current conditions, which is critical on Wyoming roadways where frequent and severe winter weather conditions often occur. To ensure that the VSL systems will be effective, the posted variable speeds need the highest degree of speed compliance from drivers in the corridor. The objective of this research is to determine the effects of the VSL system on driver's speed behavior on rural corridors and provide the guidance for further development of the VSL system in Wyoming. Results showed that the VSL systems were effective in reducing the speed and speed variation as well as increasing the driver compliance during the implementation period. However, drivers showed the different speed responses according to the various VSL implementation levels. Drivers showed a low tolerance for a large speed reduction on the VSL.
Author: Nicholas J. Garber
Publisher:
Published: 1998
Total Pages: 100
ISBN-13:
DOWNLOAD EBOOKHighway work zones have been plagued with increasing numbers of accidents in recent years. Drivers' lack of compliance with speed restrictions within work zones has been cited as one of the major contributing factors to this trend. The conventional practice for regulating work zone speeds has been static signing procedures (using regulatory or advisory speed signs). It has been found that drivers do not slow down in response to these static control measures. Changeable message signs (CMS) equipped with a radar unit can be used to display specific warning messages to speeding drivers. The radar unit detects the speed of each vehicle entering the work zone and can be programmed to activate the CMS if the speed of the vehicle exceeds a preset threshold value. This offers a more dynamic speed control environment and therefore may prove to be more effective in influencing drivers to reduce their speeds. This report is the second phase of a longitudinal research study. The first phase of the project, conducted by Garber and Patel, examined the short term effectiveness of CMS in reducing vehicle speeds in work zones. That research established that the CMS (with the radar unit) is more effective in reducing speeds in work zones than the standard Manual on Uniform Traffic Control Devices (MUTCD) signs. This study, while attempting to replicate the results obtained in phase I of the project, concentrated on evaluating the effect of duration of exposure of the CMS with radar on its effectiveness in reducing speeds and influencing speed profiles in work zones. The impact of length of the work zone and vehicle type on speed reductions was also studied. Three work zone sites in southwest Virginia, two on Interstate 81 and one on a primary highway on Route 19, were selected for the study. Speed and volume data for the population were collected using automatic traffic counters at the beginning, middle and end of each work zone. In addition, the speeds of individual drivers who triggered the CMS by exceeding the threshold speed were also recorded (using a video camera) at two other locations within the work zone to study the behavior of high speed drivers in particular and to compute their average speed reduction in response to the warning message. The results of the study indicate that the duration of exposure of the CMS does not have a significant impact on speed characteristics and driver behavior. Therefore, the CMS continues to be effective in controlling speeds in work zones for projects of long duration. It was also determined that the drivers exceeding the speed limit, in both interstate work zones have on average reduced their speeds by around 12.86 km/h (8 mph) at the middle of the work zone. At the third site (Route 19) the speed reductions at the middle of the work zone were about 16.08 km/h (10 mph). It was also found that there were no distinctive differences among the different types of vehicles with regard to speed reduction. The study also established that in longer work zones, drivers who reduced their speeds in response to the speed control effort frequently have a tendency to speed back up as they approach the end of the work zone. This indicates that very long work zones might warrant the installation of a second CMS to maintain speed reductions through the work zone.
