Ken Maser, Adam Carmichael,

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Presentation transcript:

Ken Maser, Adam Carmichael, Integration of Traffic Speed Deflectometer (TSD) and Ground Penetrating Radar (GPR) for Network-Level Roadway Structure Evaluation by Ken Maser, Adam Carmichael, Infrasense, Inc Pete Schmalzer, Nichols Consulting Engineers Bill Shaw, Idaho Transportation Department NRRA 2017 Conference May 24, 2017

Background PMS assessments are based on surface distress Continuous distress survey systems are available Remaining life depends on roadway structure Continuous roadway structure data has been harder to get FWD testing requires closures, too much time, limited coverage TSD and GPR combined can now provide continuous roadway structure data ~200 miles per day/no closures

Objectives of Idaho Pilot Project Use TSD deflection data with GPR layer thickness data to calculate properties of the roadway structure continuously across the network Subgrade Modulus Effective Structural Number Remaining Life Offer the data on a geospatial database platform usable to a wide audience Demonstrate the use of the data at both network and project levels Mention level of detail useful at the project level

Pilot Project Scope – Idaho District 6 735 miles of roadway: 168 miles Interstate 567 miles primary roads

Data Collection TSD continuous at 10m intervals Provides deflection slope at various offsets from load FWD at 100 ft. intervals in selected 2-mile regions for calibration/verification Ground Penetrating Radar (GPR) 1 GHz Horn Antenna, continuous at 1 foot intervals Selective coring for layer structure clarification Mention GPS and coordination

Traffic Speed Deflectometer (TSD)

Ground Penetrating Radar (GPR) GPS 1 GHz Horn Antennas DMI 1 GHz Horn Antenna

GPR Data Analysis 8" Diam. Core Increasing Milepost Bottom of AC Top of Pavement Bottom of CRABS Bottom of Base Depth

TSD Data Analysis Procedure Calculate subgrade modulus (Mr) directly from deflection slope of outer sensors Compute deflections by integrating deflection slopes Compute pavement modulus, Ep from deflections and layer thickness Calculate SNeff from Ep and thickness for each point

TSD vs. FWD – Maximum Deflection (D0)

TSD vs. FWD – Subgrade Modulus (MR)

Sample Analysis Result (SNeff)

Remaining Life and Segmentation Calculate remaining life at each point given SNeff at each test point, compute ESALs using traffic projections convert ESALS to life Segment the pavement based on remaining life Targeted 1-6 mile segment length, based on typical rehab project length.

Segmentation and Remaining Life (SH 28)

Pavement Substructure GeoDatabase Data is recorded in a series of tables Data is displayed spatially using ArcGIS Database is accessible through iPLAN http://iplan.maps.arcgis.com/apps/webappviewer/index.htm l?id=36433c5e330e48378bca126af4920549

Segmented Remaining Life (years) in iPLAN

Segmented Remaining Life (years) Big picture condition of network – basis for priorities and budgeting. Data is available at a level of detail that supports project level decisionmaking

Example Segment Analysis – SH28 Remaining Life SNeff Mr

Example Segment Analysis – SH28 SNeff Mr

Example Segment Analysis – SH28 Mr

I-15 Southbound Segment Analysis Remaining Life SNeff Mr

Current Effort – Use of Structure Data in Pavement Management Incorporate roadway structure parameters into PMS database (TAMS) Combine structure parameters with surface distress in decision rules Evaluate changes in resource allocation and rehabilitation plans We have now shown how roadway structure can be used to project pavement life and rehab needs on a network level. These were two small corridors, but the approach can be extrapolated, and this is being done in a current project. ----Current effort will lead to what-if scenarios. Does the info make a difference

Summary Combination of TSD and GPR has been demonstrated for determining network-level roadway structure data Process has been applied to 735 miles of roadway Resulting data is available via a statewide geodatabase Results demonstrate potential impact on rehab design Current work will complete remaining 340 miles of roads in the district and will investigate impact of results on pavement management