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Evaluation of Safety Effectiveness of Median Cable Barriers Installed on Freeways in Ohio

Evaluation of Safety Effectiveness of Median Cable Barriers Installed on Freeways in Ohio
Author: Mohammad Almothaffar
Publisher:
Total Pages: 60
Release: 2018
Genre: Accidents
ISBN:
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The Ohio Department of Transportation (ODOT) began installing median cable barriers in 2003 along highway medians for all roadways that were narrower than 59 ft. The central goal of this work was to prevent cross-median crashes (CMCs) that raised a concern due to their frequencies and severe injuries they caused when they occurred. Cross-median crashes occur when a vehicle leaves its travel way, enters or crosses the dividing median, and collides with vehicles moving in the opposite direction. This study received data from 41 locations totaling about 201 miles of installed median cable barriers in the years 2009-2014. These locations experienced 2,498 median related crashes before and after installation. The study involved a review of police reports to identify target crashes and the manner in which the vehicles hit or crossed the cable barriers, either by penetrating the cables, over-riding, under-riding, stopped, or redirected. A detailed analysis of cable hits was also conducted. The study found that median cable barriers were effective in stopping vehicles from breaching the barrier; 95.4 percent of all cable median barrier crashes had no penetration of the cable barrier, i.e., the vehicles where stopped or bounced by the cables. This thesis study summarizes some key findings of safety effectiveness evaluation of the median cable barriers in Ohio. The findings of overall statewide crash reduction after the median cable barriers compared to before period are based on the safety effectiveness percentages computed by Empirical Bayes (EB) before-after study method using the Highway Safety Manual's (HSM) procedures. Safety effectiveness of Ohio's statewide cable barriers was found to be 73.9 percent for total crashes, 80.4 percent for fatal and injury (FI) crashes combined and 80.1 percent for fatal, incapacitating, and non-incapacitating injury (KAB) crashes combined. Therefore, the estimated crash modification factors (CMFs) for median cable barriers installed in Ohio's Interstate system for total, FI, and KAB crashes are 0.261, 0.196, and 0.199, respectively. Overall, the evaluation results show that the median cable barriers installed in Ohio's Interstate system are effective in reducing cross-median severe injury crashes, which was the main objective of ODOT's installing median barriers in their Interstate highway system.

Safety Evaluation of Cable Median Barriers in Combination with Rumble Strips on Divided Roads

Safety Evaluation of Cable Median Barriers in Combination with Rumble Strips on Divided Roads
Author: Raghavan Srinivasan
Publisher:
Total Pages: 62
Release: 2017
Genre: Head-on collisions
ISBN:
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The Development of Crash Modification Factors program conducted the safety evaluation of cable median barriers in combination with rumble strips on the inside shoulder of divided roads for the Evaluation of Low Cost Safety Improvements Pooled Fund Study. This study evaluated safety effectiveness of cable median barriers in combination with rumble strips on the inside shoulders of divided roads. This strategy is intended to reduce the frequency of cross-median crashes, which tend to be very severe. Geometric, traffic, and crash data were obtained for divided roads in Illinois, Kentucky, and Missouri. To account for potential selection bias and regression-to-the-mean, an empirical Bayes before-after analysis was conducted using reference groups of untreated roads with characteristics similar to those of the treated sites. The analysis also controlled for changes in traffic volumes over time and time trends in crash counts unrelated to the treatment. In Illinois and Kentucky, cable median barriers were introduced many years after the inside shoulder rumble strips were installed; therefore, the evaluation determined the safety effect of implementing cable barriers along sections that already had rumble strips. Conversely, in Missouri, the inside shoulder rumble strips and cable barrier were implemented around the same time. Hence, the evaluation in Missouri determined the combined safety effect of inside shoulder rumble strips and cable barriers. The combined Illinois and Kentucky results indicate about a 27-percent increase in total crashes; a 24-percent decrease in fatal, incapacitating injury crashes; and a 48-percent decrease in head-on plus opposite-direction sideswipe crashes (used as a proxy for cross-median indicator plus head-on). the economic analysis for benefit-cost ratios shows that this strategy is cost beneficial.

High Tension Cable Median Barrier Safety Effectiveness Evaluation

High Tension Cable Median Barrier Safety Effectiveness Evaluation
Author: Richard Storm
Publisher:
Total Pages: 0
Release: 2022
Genre: Roads
ISBN:
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The objective of this study was to evaluate the change in crash frequency or severity of varying lateral offset distances of high-tension cable median barriers in Minnesota. Crash and traffic data from 2016 to present were conjoined with roadway cross-sectional data and high-tension cable barrier locations to perform cross-sectional analyses for interstate segments equal to or greater than 0.05-miles long. Negative binomial regression models were estimated and used to develop crash modification factors (CMFs) for the following crash types: total crashes, target crashes, and barrier crashes. In addition to evaluating the impact of lateral offset, a naïve before-after evaluation was completed to quantify the impact of installing high-tension cable barrier.

Advances in Road Infrastructure and Mobility

Advances in Road Infrastructure and Mobility
Author: Amin Akhnoukh
Publisher: Springer Nature
Total Pages: 1211
Release: 2022-04-21
Genre: Technology & Engineering
ISBN: 3030798011
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This volume focuses on recent advances in the planning, design, construction and management of new and existing roads with a particular focus on safety, sustainability and resilience. It discusses field experience through case studies and pilots presented by leading international subject-matter specialists. Chapters were selected from the 18th International Road Federation World Meeting & Exhibition, Dubai 2021.

Guidance for the Selection, Use, and Maintenance of Cable Barrier Systems

Guidance for the Selection, Use, and Maintenance of Cable Barrier Systems
Author:
Publisher:
Total Pages: 148
Release: 2012
Genre: Roads
ISBN: 9780309258425
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This report provides guidance for the selection, use, and maintenance of cable barrier systems. While cable barrier systems have been in use for more than 70 years, their use has been on the rise and is expected to continue in the future. The increase in use of cable barrier systems has been attributed to the success rate in keeping vehicles from crossing the median, reducing roadway departures, and decreasing impact severity. Due to advancements in cable barrier system technology, installation and repair costs are lower and cable barrier use has increased in varying roadway environments. Safety studies, although limited, have shown that cable barriers help reduce those median cross-over collisions that lead to some of the most severe head-on type crashes. This document will be of particular interest to design, maintenance, traffic, and safety engineering professionals.

In-service Performance Evaluation and Installation Recommendations for Cable Median Barriers on Non-continuously Shielded, Divided-median Kansas Freeways

In-service Performance Evaluation and Installation Recommendations for Cable Median Barriers on Non-continuously Shielded, Divided-median Kansas Freeways
Author: Nathan Dowler
Publisher:
Total Pages: 342
Release: 2021
Genre:
ISBN:
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The Kansas Department of Transportation (KDOT) installed 7.95 miles of cable median barrier (CMB) along K-10, K-96, and US-75 freeways in 2011 and 2012. In January 2020, KDOT funded a study to determine the in-service performance of its CMBs. In addition, KDOT sought to determine if it was cost-effective to modify guidelines for installing median barriers, which were based on annual daily traffic and median width. Researchers reviewed every crash within approximately 1⁄4 mile of a CMB installation and extracted crashes which involved a CMB impact. Researchers analyzed the critical details of each CMB crash, with particular emphasis on penetrations, in which a vehicle passed from the impact side to the opposite side of the barrier. In two penetration crashes, the vehicle completely traversed the median and encroached into the opposing lanes (CME), and one impacted an oncoming vehicle (CMC). Although the dataset was small, penetration and rollover rates were lower than other state DOT averages. Overall, the performance of the KDOT CMB was deemed acceptable and comparable to other states. Researchers investigated the cost-effectiveness of installing CMBs based on the frequency of critical crash events. A detailed examination of 16,721 crashes on non-continuously shielded, divided-median Kansas freeways from 2014 to 2018 was undertaken, which focused on median departures, crashes which reached the median centerline, CMEs, and CMCs. Benefit-to-cost ratios were calculated for various median widths, roadways, and traffic volume conditions. Previous median barrier warrant guidelines were determined to still be cost-effective and changes to KDOT policy were not recommended. A review of all off-road crashes which did not enter the median was conducted to examine any trends or characteristics between contributing factors or fixed objects struck. The relationship between crash cause and traffic volume was explored, identifying the traffic volume range at which each contributing factor was most prevalent. A disproportionate number of severe crashes following contact with bridge piers was observed, and recommendations were made for further analysis.