Author: Vaughan W. Inman
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 0
Book Description
Four-lane divided highways are an economical design solution to increase the capacity of rural highways compared to grade-separated limited access facilities. Compared to two-lane undivided rural highways, four-lane divided highways have markedly lower rates of sideswipe, rear-end, and head-on collisions. However, right-angle crash rates are markedly higher on four-lane divided highway intersections than at two-lane undivided highway intersections, largely as a result of left-turn and through movements from minor roads conflicting with far-side vehicles on the divided highway. The restricted crossing U-turn (RCUT) intersection is a promising treatment to mitigate right-angle crashes where two-lane minor roads intersect with rural four-lane divided highways. This report includes a comparison of operations at an RCUT intersection in Maryland with a roughly comparable conventional stop-controlled intersection on the same corridor. It also includes before-after crash analyses for intersections converted from conventional to RCUT designs on two Maryland highway corridors. The operational analysis found that conflicts between vehicles entering or crossing the highway from a minor road were reduced, weaving movements were about the same for the two intersection types, the RCUT design added about 1 min to travel time for vehicles making left-turn or through movements from the minor road. Three approaches were used to estimate the affect of an RCUT conversion on crashes. All three approaches led to the same conclusion: the RCUT design reduces crashes. A simple 3-year before and 3-year after analysis suggested a 30 percent decrease in the average number of crashes per year. An analysis that adjusted the observed crash rate at RCUT locations for the observed crash rate at nearby conventional intersections on the same corridors suggested a 28 percent decrease in the average annual number of crashes. An empirical Bayes analysis that adjusts for, among other things, the expected number of crashes at similar intersections and average annual traffic suggested a 44 percent decrease in crashes. Furthermore, the analyses suggest an overall reduction in crash severity with the RCUT design.
Field Evaluation of a Restricted Crossing U-turn Intersection
Author: Vaughan W. Inman
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 0
Book Description
Four-lane divided highways are an economical design solution to increase the capacity of rural highways compared to grade-separated limited access facilities. Compared to two-lane undivided rural highways, four-lane divided highways have markedly lower rates of sideswipe, rear-end, and head-on collisions. However, right-angle crash rates are markedly higher on four-lane divided highway intersections than at two-lane undivided highway intersections, largely as a result of left-turn and through movements from minor roads conflicting with far-side vehicles on the divided highway. The restricted crossing U-turn (RCUT) intersection is a promising treatment to mitigate right-angle crashes where two-lane minor roads intersect with rural four-lane divided highways. This report includes a comparison of operations at an RCUT intersection in Maryland with a roughly comparable conventional stop-controlled intersection on the same corridor. It also includes before-after crash analyses for intersections converted from conventional to RCUT designs on two Maryland highway corridors. The operational analysis found that conflicts between vehicles entering or crossing the highway from a minor road were reduced, weaving movements were about the same for the two intersection types, the RCUT design added about 1 min to travel time for vehicles making left-turn or through movements from the minor road. Three approaches were used to estimate the affect of an RCUT conversion on crashes. All three approaches led to the same conclusion: the RCUT design reduces crashes. A simple 3-year before and 3-year after analysis suggested a 30 percent decrease in the average number of crashes per year. An analysis that adjusted the observed crash rate at RCUT locations for the observed crash rate at nearby conventional intersections on the same corridors suggested a 28 percent decrease in the average annual number of crashes. An empirical Bayes analysis that adjusts for, among other things, the expected number of crashes at similar intersections and average annual traffic suggested a 44 percent decrease in crashes. Furthermore, the analyses suggest an overall reduction in crash severity with the RCUT design.
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 0
Book Description
Four-lane divided highways are an economical design solution to increase the capacity of rural highways compared to grade-separated limited access facilities. Compared to two-lane undivided rural highways, four-lane divided highways have markedly lower rates of sideswipe, rear-end, and head-on collisions. However, right-angle crash rates are markedly higher on four-lane divided highway intersections than at two-lane undivided highway intersections, largely as a result of left-turn and through movements from minor roads conflicting with far-side vehicles on the divided highway. The restricted crossing U-turn (RCUT) intersection is a promising treatment to mitigate right-angle crashes where two-lane minor roads intersect with rural four-lane divided highways. This report includes a comparison of operations at an RCUT intersection in Maryland with a roughly comparable conventional stop-controlled intersection on the same corridor. It also includes before-after crash analyses for intersections converted from conventional to RCUT designs on two Maryland highway corridors. The operational analysis found that conflicts between vehicles entering or crossing the highway from a minor road were reduced, weaving movements were about the same for the two intersection types, the RCUT design added about 1 min to travel time for vehicles making left-turn or through movements from the minor road. Three approaches were used to estimate the affect of an RCUT conversion on crashes. All three approaches led to the same conclusion: the RCUT design reduces crashes. A simple 3-year before and 3-year after analysis suggested a 30 percent decrease in the average number of crashes per year. An analysis that adjusted the observed crash rate at RCUT locations for the observed crash rate at nearby conventional intersections on the same corridors suggested a 28 percent decrease in the average annual number of crashes. An empirical Bayes analysis that adjusts for, among other things, the expected number of crashes at similar intersections and average annual traffic suggested a 44 percent decrease in crashes. Furthermore, the analyses suggest an overall reduction in crash severity with the RCUT design.
Field Evaluation of a Restricted Crossing U-turn Intersection
Author: Vaughan W. Inman
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 43
Book Description
Four-lane divided highways are an economical design solution to increase the capacity of rural highways compared to grade-separated limited access facilities. Compared to two-lane undivided rural highways, four-lane divided highways have markedly lower rates of sideswipe, rear-end, and head-on collisions. However, right-angle crash rates are markedly higher on four-lane divided highway intersections than at two-lane undivided highway intersections, largely as a result of left-turn and through movements from minor roads conflicting with far-side vehicles on the divided highway. The restricted crossing U-turn (RCUT) intersection is a promising treatment to mitigate right-angle crashes where two-lane minor roads intersect with rural four-lane divided highways. This report includes a comparison of operations at an RCUT intersection in Maryland with a roughly comparable conventional stop-controlled intersection on the same corridor. It also includes before-after crash analyses for intersections converted from conventional to RCUT designs on two Maryland highway corridors. The operational analysis found that conflicts between vehicles entering or crossing the highway from a minor road were reduced, weaving movements were about the same for the two intersection types, the RCUT design added about 1 min to travel time for vehicles making left-turn or through movements from the minor road. Three approaches were used to estimate the affect of an RCUT conversion on crashes. All three approaches led to the same conclusion: the RCUT design reduces crashes. A simple 3-year before and 3-year after analysis suggested a 30 percent decrease in the average number of crashes per year. An analysis that adjusted the observed crash rate at RCUT locations for the observed crash rate at nearby conventional intersections on the same corridors suggested a 28 percent decrease in the average annual number of crashes. An empirical Bayes analysis that adjusts for, among other things, the expected number of crashes at similar intersections and average annual traffic suggested a 44 percent decrease in crashes. Furthermore, the analyses suggest an overall reduction in crash severity with the RCUT design.
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 43
Book Description
Four-lane divided highways are an economical design solution to increase the capacity of rural highways compared to grade-separated limited access facilities. Compared to two-lane undivided rural highways, four-lane divided highways have markedly lower rates of sideswipe, rear-end, and head-on collisions. However, right-angle crash rates are markedly higher on four-lane divided highway intersections than at two-lane undivided highway intersections, largely as a result of left-turn and through movements from minor roads conflicting with far-side vehicles on the divided highway. The restricted crossing U-turn (RCUT) intersection is a promising treatment to mitigate right-angle crashes where two-lane minor roads intersect with rural four-lane divided highways. This report includes a comparison of operations at an RCUT intersection in Maryland with a roughly comparable conventional stop-controlled intersection on the same corridor. It also includes before-after crash analyses for intersections converted from conventional to RCUT designs on two Maryland highway corridors. The operational analysis found that conflicts between vehicles entering or crossing the highway from a minor road were reduced, weaving movements were about the same for the two intersection types, the RCUT design added about 1 min to travel time for vehicles making left-turn or through movements from the minor road. Three approaches were used to estimate the affect of an RCUT conversion on crashes. All three approaches led to the same conclusion: the RCUT design reduces crashes. A simple 3-year before and 3-year after analysis suggested a 30 percent decrease in the average number of crashes per year. An analysis that adjusted the observed crash rate at RCUT locations for the observed crash rate at nearby conventional intersections on the same corridors suggested a 28 percent decrease in the average annual number of crashes. An empirical Bayes analysis that adjusts for, among other things, the expected number of crashes at similar intersections and average annual traffic suggested a 44 percent decrease in crashes. Furthermore, the analyses suggest an overall reduction in crash severity with the RCUT design.
Field Evaluation of a Restricted Crossing U-turn Intersection
Author:
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 4
Book Description
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 4
Book Description
Safety Evaluation of Restricted Crossing U-turn Intersection
Author:
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 8
Book Description
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 8
Book Description
Safety evaluation of signalized restricted crossing U-turn intersections
Author: Joseph E. Hummer
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 63
Book Description
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 63
Book Description
Development of Safety Performance Functions for Restricted Crossing U-turn (RCUT) Intersections
Author:
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 217
Book Description
Florida State University researchers developed guidance to assist planners in deciding where to place restricted crossing U-turns (RCUTs).
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 217
Book Description
Florida State University researchers developed guidance to assist planners in deciding where to place restricted crossing U-turns (RCUTs).
Restricted Crossing U-turns at Rural Intersections
Author: Timothy Adams
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 103
Book Description
This study examines the potential for replacing the standard intersection design at two-way stop control (TWSC) and all-way stop control (AWSC) intersections along rural highways with a roundabout or a restricted crossing u-turn (RCUT) facility. The geometry of the RCUT design prohibits left and through movements from the side road, and provides a u-turn location downstream from the main crossing. This type of facility has been implemented for rural highways extensively in other states and has the potential to serve as a cost-effective solution to improve roadway safety within Nebraska. Comparative analysis is conducted for three site locations (Humphrey, Madison, and Dakota City, Nebraska) with either TWSC or AWSC existing geometry, analyzing the anticipated impacts of mitigation with a roundabout or an RCUT design. The costs and benefit analysis from implementing the various intersection geometries includes monetized delay costs, monetized crash costs, and anticipated construction costs. Alongside the cost benefit analysis, a decision matrix seeks to assess specifically whether an RCUT intersection would be appropriate, and the five factors for consideration identified include (1) the safety concerns at the location, (2) the overall levels of traffic demand, (3) the balance between major and minor movement traffic demand, (4) the presence of obstructions along the main roadway that would impact u-turn bay placement, and (5) the available space in the median for the u-turn bay.
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 103
Book Description
This study examines the potential for replacing the standard intersection design at two-way stop control (TWSC) and all-way stop control (AWSC) intersections along rural highways with a roundabout or a restricted crossing u-turn (RCUT) facility. The geometry of the RCUT design prohibits left and through movements from the side road, and provides a u-turn location downstream from the main crossing. This type of facility has been implemented for rural highways extensively in other states and has the potential to serve as a cost-effective solution to improve roadway safety within Nebraska. Comparative analysis is conducted for three site locations (Humphrey, Madison, and Dakota City, Nebraska) with either TWSC or AWSC existing geometry, analyzing the anticipated impacts of mitigation with a roundabout or an RCUT design. The costs and benefit analysis from implementing the various intersection geometries includes monetized delay costs, monetized crash costs, and anticipated construction costs. Alongside the cost benefit analysis, a decision matrix seeks to assess specifically whether an RCUT intersection would be appropriate, and the five factors for consideration identified include (1) the safety concerns at the location, (2) the overall levels of traffic demand, (3) the balance between major and minor movement traffic demand, (4) the presence of obstructions along the main roadway that would impact u-turn bay placement, and (5) the available space in the median for the u-turn bay.
Restricted Crossing U-turn Intersection Informational Guide
Author: Joseph E. Hummer
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 186
Book Description
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 186
Book Description
Restricted crossing U-turn intersection
Author: Warren Edward Hughes
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 4
Book Description
Publisher:
ISBN:
Category : Roads
Languages : en
Pages : 4
Book Description
Public Roads
Author:
Publisher:
ISBN:
Category : Highway research
Languages : en
Pages : 48
Book Description
Publisher:
ISBN:
Category : Highway research
Languages : en
Pages : 48
Book Description