Comparative Analysis between Distracted Driving Texting Laws and Driver’s Behavior in Construction Work Zones

The Utah Department of Transportation (UDOT) implemented dynamic management of portable variable speed limit (PVSL) technology to reduce regulatory speed limits through an active work space (AWS). UDOT also developed and tested an intelligent system approach to alter speed limits in construction work zones. The goal of the PVSL system was to provide a portable and dynamic system that was easy for construction personnel to use to prudently reduce speeds within an AWS and make construction work zones safer for workers and the traveling public, while limiting the need to reduce speed throughout the AWS, rather than the entire construction work zone. This was achieved through temporary regulatory reductions in driver speeds within the immediate boundary of an AWS when workers were on site and exposed to the danger of errant vehicles during active construction. The system also raises speed limits when workers were not present. This PVSL system used a dynamic variable speed limit (VSL) algorithm to raise and lower the regulatory speed limits. The PVSL system also provided a queue warning algorithm that operated independent of the VSL algorithm to control messages posted on the portable variable message sign (PVMS) trailers to disseminate dynamic information to drivers. UDOT has completed 2 years of PVSL system deployment testing in four separate construction work zones to evaluate the effectiveness of the system. This paper highlights key elements that guided development of the PVSL system, along with the successful results from deployment of the system.

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Driver Eye-Scanning Behavior as Function of Pavement Marking Configuration

Transportation Research Record Journal of the Transportation Research Board ◽

10.3141/1605-08 ◽

1997 ◽

Vol 1605 (1) ◽

pp. 62-72 ◽

Cited By ~ 7

Author(s):

Helmut T. Zwahlen ◽

Thomas Schnell

Keyword(s):

Construction Work ◽

Work Zones ◽

Road Test ◽

Speed Limits ◽

Eye Fixation ◽

Pavement Markings ◽

Educational Effort ◽

Low Visibility ◽

Scanning Behavior ◽

Pavement Marking

Spatial driver eye-scanning behavior and driving speeds were collected along four rural two-lane road test sites under low-beam illumination conditions at night. This study was conducted to test the hypothesis that drivers adjust their spatial eye-scanning behavior and their driving speeds in response to pavement marking visibility. Two pavement marking conditions were investigated: (a) low-visibility temporary pavement markings (before condition) consisting of a yellow dashed centerline and no edge lines on a newly paved asphalt surface, and (b) new, fully restored double solid yellow centerlines with white edge lines (after condition). The results suggest that drivers operate with very short preview times and that drivers do not appear to lower their speeds under the low-visibility before condition, as compared with their speeds under the high-visibility after condition. However, drivers systematically and consistently decrease their longitudinal eye fixation distances under the before condition. This study provides further evidence that drivers “overdrive” their low beams at night and that there may be a need for a specific educational effort or, in the case of temporary pavement markings in construction work zones, the use of regulatory lower speed limits and credible enforcement.

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