An Evaluation of Warning and Regulatory Signs for Curves on Rural Roads. Final Report
An Evaluation of Warning and Regulatory Signs for Curves on Rural Roads. Final Report

Author: R. W. Lyles

Publisher:

Published: 1980

Total Pages: 82

ISBN-13:

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The report reviews an experiment undertaken to examine the effectiveness of five sign treatments for controlling driver speeds in the vicinity of hazardous horizontal curves on rural two-lane highways. Signs examined ranged from the standard curve warning arrow to a regulatory speed zone sign in conjunction with a curve warning sign. Data collected during the experiment included both the following electronic and manual data: speeds of motorists as they approached and negotiated two horizontal curves, vehicle classification and registration information, and whether vehicles crossed over center and edge line markings.

An Evaluation of Warning and Regulatory Signs for Curves on Rural Roads
An Evaluation of Warning and Regulatory Signs for Curves on Rural Roads

Author: R. W. Lyles

Publisher:

Published: 1980

Total Pages: 44

ISBN-13:

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The report reviews an experiment undertaken to examine the effectiveness of five sign treatments for controlling driver speeds in the vicinity of hazardous horizontal curves on rural two-lane highways. Signs examined ranged from the standard curve warning arrow to a regulatory speed zone sign in conjunction with a curve warning sign. Data collected during the experiment included both the following electronic and manual data: speeds of motorists as they approached and negotiated two horizontal curves, vehicle classification and registration information, and whether vehicles crossed over center and edge line markings.

Curve Warning Sign Study
Curve Warning Sign Study

Author: Robert L. Moore

Publisher:

Published: 1993

Total Pages: 28

ISBN-13:

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This report determines how curve warning sign guidelines are being interpreted and implemented by districts in California. Generally, district traffic engineers consider the existing criteria for curve warning signs and advisory speed plates in Chapter 4 of the "Traffic Manual" (California Department of Transportation, 1982) to be adequate direction for their use. The policies provide enough general direction to allow engineers to design specific sign installations that will be uniformly understood by the public. The largest difference in sign application occurred with the W14 sign and its repetition within a winding highway section. This report suggests that this sign is not as effective as believed.

Evaluation of Minor Improvements
Evaluation of Minor Improvements

Author: Charles G. Hammer

Publisher:

Published: 1968

Total Pages: 54

ISBN-13:

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This investigation evaluated the effectiveness of specific sign installations in reducing reported accidents. The before and after study method was used to evaluate 34 sign installations. Accident predictive methods were investigated for curve warning, advisory speed, special combination advisory speed, and 4-way stop sign installations. Since the costs of the signs are very small, this kind of safety improvement can be made at bargain rates.

Evaluation of Dynamic Speed Feedback Signs on Curves
Evaluation of Dynamic Speed Feedback Signs on Curves

Author: Shauna L. Hallmark

Publisher:

Published: 2015

Total Pages: 194

ISBN-13:

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Lane departure crashes are a significant safety concern. The majority of lane departure crashes occur on rural two-lane roadways, with a disproportionate number of these crashes on horizontal curves. Curve-related crashes involve a number of roadway and driver causative factors. A primary driver factor is speeding. Dynamic speed feedback sign (DSFS) systems are one method to reduce vehicle speeds and, consequently, crashes on curves. These systems show promise but they have not been fully evaluated on curves. The Center for Transportation Research and Education at Iowa State University conducted a national demonstration project to evaluate the effectiveness of two different DSFSs in reducing speed and crashes on curves at 22 total sites on rural two-lane roadways in seven States. The goal is to provide traffic safety engineers and other professionals with additional tools to manage speeds and crashes on rural horizontal curves more effectively. Data were collected before and at 1, 12, and 24 months after installation of the DSFS. On average, most sites had decreases in mean speeds, with decreases up to 10.9 miles per hour (mph) noted for both the point of curvature (PC) and center of curve (CC). Most sites experienced changes in 85th percentile speed of 3 mph or more at the PC, with the majority of sites having a decrease of 2 mph at the CC. The numbers of vehicles traveling 5, 10, 15, or 20 mph over the posted or advisory speed limit were also compared. Large reductions in the number of vehicles traveling over the posted or advisory speed occurred for all of the after periods at the PC and CC, indicating that the signs were effective in reducing high-end speeds, as well as average and 85th percentile speeds. A before-and-after crash analysis was also conducted, and crash modification factors (CMF) were developed. CMFs ranged from 0.93 to 0.95 depending on the crash type and direction of the crash.