Pavement Surface Analysis Laboratory
Manager: Dennis Sixbey (dennis.sixbey@fhwa.dot.gov)
PURPOSE
The Pavement Surface Analysis Laboratory aids in the development of new,
non-contact hardware and analysis techniques to quickly identify and quantify
surface profile and texture parameters with minimal or no disruption to the
highway user. From these traces/measurements, numerous pavement performance
inferences can be derived concerning ride quality (roughness, smoothness,
noise), safety (friction and geometry), and durability (roughness, deformation,
and aggregate segregation).
DESCRIPTION
The Pavement Surface Analysis Laboratory has developed prototype systems that
are being evaluated and demonstrated in field trials. Research oriented versions
of standard performance measurement systems have also been developed and
utilized to expand understanding and potential areas of application. The Road
Surface Analyzer (ROSAN) refers to a series of non-contact pavement surface
texture measurement devices and the Profile and Rut measurement device (PRORUT)
is a non-contact vehicle based system to measure the longitudinal profile and
rutting of the roadways at highway speeds. The PRORUT vehicle has been used as
the base for a number of other measurement systems. In addition to PRORUT, the
Pavement Surface Analysis Laboratory uses a step van, a larger, general purpose
research vehicle configured for ROSAN prototypes, and a texture van, a general
purpose research vehicle equipped to support portable sensor systems to measure
pavement surface characteristics.
SPECIAL CAPABILITIES
First lab at Turner-Fairbank Highway Research Center (TFHRC) to enter into a
Cooperative Research and Development Agreement with a private partner to advance
technology beyond prototype stage.
Technology supports ONE-DOT in that the equipment can be used on airport
runway pavements as well as highway pavements.
Has responded to many requests from
research organizations
- National
Cooperative Highway Research Program (NCHRP), World Road Congress (PIARC),
State DOTs, Universities, and the Federal Highway Administration (FHWA) - for
use of its equipment in research studies involving pavement surfaces.
Focuses on high-speed, non-contact, vehicle-independent, affordable, and
portable devices (ROSAN systems).
Has consistently produced accurate, user-friendly, and affordable
technology with modest resources.
PRODUCTS & SERVICES
Developed, validated, and demonstrated several versions of the ROSAN
system for measuring texture, aggregate segregation, grooves, tining,
joints, and faulting. ROSAN systems have been used in a number of NCHRP and
FHWA sponsored studies.
Developed, validated, and demonstrated prototype ROSANvm (vehicle equipped
with a transverse beam capable of measuring profile and texture over a
4267-mm by 102-mm [168-in by 4-in] area).
Working with an FHWA divisional office, and a State DOT, aided in the
development and demonstration of a prototype ROSAN cross-slope measurement
device.
Designed and built PRORUT, a research oriented non-contact road profiling
device. This vehicle has been used in a number of sponsored studies for
NCHRP, PIARC, and FHWA. PRORUT was recently used in a project to measure
Portland Cement Concrete (PCC) pavement "Warp and Curl."
Studies technical information, computer software, analysis procedures, and
data collection systems for pavement surface analysis. This information, and
the devices available, enable the analysis of network-wide and project-level
friction, roughness, texture, smoothness, inside and outside vehicle noise,
aggregate segregation, and rutting.
LAB PARTNERS
The Pavement Surface Analysis Laboratory has active partnerships with
FHWA offices, State DOTs, and small businesses.
Aided in the development of a cross-slope measurement device with South
Carolina DOT.
Performed research at Wallops Island (NASA) to evaluate the effectiveness
and applicability of non-contact surface texture data collection devices.
Developing a ROSAN system for Federal Lands Highway Division
implementation.
Collaborating to evaluate the effect of pavement texture on friction and
to correlate surface texture data with accident rates for Virginia
DOT.
Providing technical support of Small Business Innovative Research program
(SBIR) projects developing a new generation of lasers to support future
non-contact pavement condition assessment tools.
CURRENT PROJECTS
The Pavement Surface Analysis Laboratory is involved in a number of studies, as
well as providing assistance to other researchers:
Resolving issues regarding correlation of Mean Profile Depth and Mean
Texture Depth and the quantifying deviation in texture measurements due to
travel path variations.
Tire/pavement (texture) noise generation
reduction.
Texture/friction relationship.
Profile based "Warp and Curl" and faulting measurement of PCC
pavement.
Aggregate segregation of Asphalt Concrete pavements (NCHRP study).
EXPERTISE
The lab combines the expertise of civil, mechanical, and electrical engineers
with experience in pattern recognition, algorithm development, experimental
design, analysis (engineering and statistical), system design, system control,
and mechanical and electrical design; computer programmers with experience in
windows-based GUI programs, data acquisition, and signal processing; and
technicians with experience in electronics fabrication, mechanical fabrication,
instrumentation, and vehicle modification.
STATISTICS
ROSANv
Noise Study: at least two states have recently changed their tine specification
for PCC pavement for noise reduction.
Aggregate Segregation: based on an NCHRP study, American Association of State
Highway and Transportation Officials (AASHTO) is considering setting a standard
for measuring aggregate segregation using ROSANv.
PRORUT
Used in a major NCHRP study to establish national guidelines and reference
material on the operation of road profilers for measuring road roughness.
Warp & Curl
Preliminary results of ongoing research are to be applied as soon as possible to
participating States and expect wide spread application of research results as
benefits are estimated to be in the tens of billions of dollars.
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