References
- AASHTO. Mechanistic-empirical pavement design guide: a manual of practice. Washington, DC: American Association of State Highway Officials and Transportation Officials; 2008.
- Al-Qadi IL, Lahouar S, Loulizi A. GPR: from the state-of-the-art to the state-of-the-practice. In: International Symposium of Non-destructive Testing in Civil Engineering. Proceedings BB85-CD; 2003 Sep.; Berlin, Germany: The German Society for Non-Destructive Testing (DGZfp). p. 16–19.
- AL-Qadi I, Lahouar S. Measuring layer thicknesses with GPR–theory to practice. Constr. Build. Mater. 2005;19:763–772.10.1016/j.conbuildmat.2005.06.005
- Al-Qadi IL, Leng Z, Lahouar S, et al. In-place hot-mix asphalt density estimation using ground-penetrating radar. Transp. Res. Rec.: J. Transp. Res. Board. 2010;2152:19–27.10.3141/2152-03
- Lahouar S, Al-Qadi IL. Automatic detection of multiple pavement layers from GPR data. NDT & E Int. 2008;41:69–81.
- Cao Y, Guzina BB, Labuz JF. Pavement evaluation using ground penetrating radar. St. Paul (MN): Minnesota Department of Transportation; 2008.
- Evans R, Frost M, Stonecliffe-Jones M, et al. A review of pavement assessment using ground penetrating radar (GPR). In: Rogers CDF, Chignell RJ, editors. 12th International Conference on Ground Penetrating Radar. Proceedings; 2008 Jun. 16–19; Birmingham, UK; 2008.
- Plati C, Loizos A. Using ground-penetrating radar for assessing the structural needs of asphalt pavements. Nondestr. Test. Eval. 2012;27:273–284.10.1080/10589759.2012.695784
- Goel A, Das A. Nondestructive testing of asphalt pavements for structural condition evaluation: a state of the art. Nondestr. Test. Eval. 2008;23:121–140.10.1080/10589750701848697
- Poikajärvi J, Peisa K, Herronen T, et al. GPR in road investigations – equipment tests and quality assurance of new asphalt pavement. Nondestr. Test. Eval. 2012;27:293–303.10.1080/10589759.2012.695786
- Moropoulou A, Avdelidis NP, Koui M, et al. Infrared thermography and ground penetrating radar for airport pavements assessment. Nondestr. Test. Eval. 2002;18:37–42.10.1080/10589750290026574
- Loizos A, Plati C. Accuracy of pavement thicknesses estimation using different ground penetrating radar analysis approaches. NDT & E Int. 2007;40:147–157.
- Al-Qadi IL, Lahouar S, Loulizi A. Successful application of ground-penetrating radar for quality assurance-quality control of new pavements. Transp. Res. Rec.: J. Transp. Res. Board. 2003;1861:86–97.10.3141/1861-10
- Grote K, Hubbard S, Harvey J, et al. Evaluation of infiltration in layered pavements using surface GPR reflection techniques. J. Appl. Geophys. 2005;57:129–153.10.1016/j.jappgeo.2004.10.002
- White DJ, Becker P, Vennapusa PK, et al. Assessing soil stiffness of stabilized pavement foundations. Transp. Res. Rec.: J. Transp. Res. Board. 2013;2335:99–109.10.3141/2335-11
- Daniels JJ. Fundamentals of ground penetrating radar. In: Symposium on the Application of Geophysics to Engineering and Environmental Problems. Proceedings; 1989 March 13–16; Environment and Engineering Geophysical Society; 1989.
- GSSI. GSSI handbook for RADAR inspection of concrete. Salem (NH): Geophysical Survey Systems, Inc; 2006.
- Loken MC. Use of ground penetrating radar to evaluate Minnesota roads. St. Paul (MN): Minnesota Department of Transportation; 2007.
- Davis JL, Annan AP. Ground-penetrating RADAR for high-resolution mapping of soil and rock stratigraphy. Geophys. Prospect. 1989;37:531–551.10.1111/gpr.1989.37.issue-5
- Willett DA, Rister B. Ground penetrating radar pavement layer thickness evaluation. Lexington: Kentucky Transportation Center; 2002.
- Irwin HL, Yang W, Stubstad R. Deflection reading accuracy and layer thickness accuracy of pavement layer moduli. Nondestructive testing of pavements and backcalculation of pavement layer moduli. West Conshohocken (PA): ASTM STP1026:229-44; 1989.
- Lalague A, Lebens MA, Hoff I. Accuracy of ground penetrating radar in pavement thickness evaluation – impact of interpretation errors. In: Transport Research Arena: Transport Solutions from Research to Deployment. Proceedings. 2014 Apr. 14–17; Paris, France: Institut Francais des Sciences et Technologies des Transports, de l’Aménagement et des Réseaux (IFSTTAR); 2014.
- Lalagüe A, Hoff I, Accuracy of ground penetrating radar in bituminous pavement thickness evaluation. In: Transport Research Arena 2010. Proceedings; 2014; Brussels, Belgium.
- Saarenketo T, Scullion T. Using electrical properties to classify the strength properties of base course aggregates. College Station (TX): Texas Transportation Institute; 1995.
- Halabe UB, Maser K, Kausel E. Condition assessment of reinforced concrete using EM waves. Cambridge (MA): Massachusetts Institute of Technology; 1989.
- Maser K, Scullion T. Influence of asphalt layering and surface treatments on asphalt base layer thickness computations using radar. Report No. TX-92-1923-1. College Station (TX): Texas Transportation Institute; 1992.
- Scullion T, Chen Y, Lau CL. COLORMAP-user’s manual with case studies. Report No. FHWA/TX-96/1341-1. College Station (TX): Texas Transportation Institute; 1995.
- Topp GC, Davis JL, Annan AP. Electromagnetic determination of soil water content: measurements in coaxial transmission lines. Water Resour. Res. 1980;16:574–582.10.1029/WR016i003p00574
- Grove J, Jones K, Ye D, et al. Nondestructive tests of thickness measurements for concrete pavements. Transp. Res. Rec.: J. Transp. Res. Board. 2012;2268:61–67.10.3141/2268-08
- ASTM. ASTM D6951 – 03 standard test method for use of the dynamic cone penetrometer in shallow pavement applications. West Conshohocken (PA): ASTM International; 2003.
- Decagon. GS3 water content, EC and temperature sensors operator’s manual. Pullman (WA): Decagon Devices, Inc.; 2015.
- ASTM. ASTM D698-13 Standard test methods for Laboratory Compaction Characteristics of Soil Using Standard Effort (12,400 ft-lbf/ft3(600 kN-m/m3)). West Conshohocken (PA): ASTM International; 2013.
- Hallikainen M. Dielectric properties of NaCl ice at 16 GHz. Report No. S-1107. Espoo, Finland: Helsinki University of Technology, Radio Laboratory; 1977.
- Makul N. Dielectric permittivity of various cement-based materials during the first 24 hours hydration. Open J. Inorg. Non-Met. Mater. 2013;3:53–57.
- White DJ, Vennapusa P. Rapid in situ measurement of hydraulic conductivity for granular pavement foundations. In: Abu-Farsakh M, Yu X, Hoyos LR, editors. Geo-Congress 2014 Technical Papers. Proceedings; 2014 Feb. 23–26; Atlanta (GA), USA: American Society of Civil Engineers; 2014. p. 3005–3014.