- Ahmed, M., Rahman, A., Islam, M. and Tarefder, R. (2015) “Combined effect of asphalt concrete cross-anisotropy and temperature variation on pavement stress–strain under dynamic loading”, Construction and Building Materials, Vol. 93, pp. 685-694.
- AUSTROADS (2010) “Guide to Pavement Technology (APT-02/10) – Part 2: Pavement Structural Design”, Sydny, Australia: Austroads.
- Behiry, A.E.A.E.M. (2012) “Fatigue and rutting lives in flexible pavement”, Ain Shams Engineering Journal, Vol. 3, Number 4, pp. 367-374.
- Boussinesq, J. (1885) “Applications des potentials a l'etude de l'equilibre et du mouvement des solides elastique”, Gauthier-Villars, Paris.
- Burmister, D. M., Palmer, L., Barber, E., Casagrande, A. D. and Middlebrooks, T. (1944) “The theory of stress and displacements in layered systems and applications to the design of airport runways”, Highway Research Board Proceedings, Chicago, Illinois, USA.
- Duncan, J. M., Monismith, C. L. and Wilson, E. L. (1968) “Finite element analyses of pavements”, Highway Research Record, Vol. 228, pp. 18-33.
- Fakhri, M. and Ghanizadeh, A. R. (2014) “Modelling of 3D response pulse at the bottom of asphalt layer using a novel function and artificial neural network”, International Journal of Pavement Engineering, Vol. 15, Number 8, pp. 671-688.
- Ghanizadeh, A. R. and Ziaie, A. (2015) “NonPAS: A Program for Nonlinear Analysis of Flexible Pavements”, International Journal of Integrated Engineering, Vol. 7, Number 1, pp. 21-28.
- Goktepe, A. B., Agar, E. and Lav, A. H. (2006), “Advances in backcalculating the mechanical properties of flexible pavements”, Advances in engineering software, Vol. 37, Number 7, pp. 421-431.
- Gopalakrishnan, K., Agrawal, A., Ceylan, H., Kim, S. and Choudhary, A. (2013), “Knowledge discovery and data mining in pavement inverse analysis”, Transport, Vol. 28, Number 1, pp. 1-10.
- Gopalakrishnan, K. and Kim, S. (2010) “Support vector machines approach to HMA stiffness prediction. Journal of engineering mechanics”, Vol. 137, Number 2, pp. 138-146.
- Harichandran, R. S., Yeh, M.-S. and Baladi, G. Y. (1990) “MICH-PAVE: A nonlinear finite element program for analysis of flexible pavements”, Transportation research record, Vol. 1286, pp. 123-131.
- Hayhoe, G. F. (2002) “LEAF: A New Layered Elastic Computational Program for FAA Pavement Design and Evaluation Procedures”, Federal Aviation Administration.
- Huang , Y. H. (2004) “Pavement analysis and design”, 2nd ed., USA, New Jersey: Prentice Hall, Inc.
- Iran Management and Planning Organization (IMPO) (2010) “Iran Highway Asphaltic Pavements (IHAP) Code”, vol. 234, Tehran, Iran, 2nd edition.
- IRC. (2012) “Guidelines for the design of flexible pavements”, 3rd ed., Indian Road Congress.
- Jong, D. d., Peutz, M. and Korswagen, A. (1979) “Computer Program BISAR, Layered Systems Under Normal and Tangential Surface Loads”, Koninklijke/Shell Laboratorium, Amsterdam, Shell Research BV.
- Khazanovich, L. and Wang, Q. C. (2007) “MnLayer: high-performance layered elastic analysis program”, Transportation Research Record, Vol. 2037, pp. 63-75.
- Kim, M., Tutumluer, E., and Kwon, J. (2009) “Nonlinear pavement foundation modeling for three-dimensional finite-element analysis of flexible pavements”, International Journal of Geomechanics, Vol. 9, Number 5, pp. 195-208.
- Lin, J. and Liu, Y. (2010) “Potholes detection based on SVM in the pavement distress image”, Paper presented at the
Ninth International Symposium on Distributed Computing and Applications to Business Engineering and Science (DCABES), Hong Kong, China.
- Maalouf, M., Khoury, N. and Trafalis, T. B. (2008) “Support vector regression to predict asphalt mix performance”, International journal for numerical and analytical methods in geomechanics, Vol. 32, Number 16, pp. 1989-1996.
- Maher, A. and Bennert, T. A. (2008) “Evaluation of Poisson’s ratio for use in the mechanistic empirical pavement design guide (MEPDG)”, No. FHWA-NJ-2008-004.
- Maitra, S. R., Reddy, K. and Ramachandra, L. (2015) “Estimation of joint and interface parameters for the finite element analysis of jointed concrete pavement using structural evaluation results”, International Journal on Pavement Engineering and Asphalt Technology, Vol. 16, Number 2, pp. 21-38.
- NCHRP. (2004) “Guide for mechanistic–empirical design of new and rehabilitated pavement structures”, Final Report for Project 1-37A. Washington, DC: National Cooperative Research Program.
- Newmark, N. M. (1947) “Influence charts for computation of vertical displacements in elastic foundations”, Bulletin series No. 367, University of Illinois.
- Odemark, N. (1949) “Investigations as to the elastic properties of soils and design of pavements according to the theory of elasticity”, Meddelande 77.
- Patil, S., Mandal, S. and Hegde, A. (2012) “Genetic algorithm based support vector machine regression in predicting wave transmission of horizontally interlaced multi-layer moored floating pipe breakwater”, Advances in Engineering Software, Vol. 45, Number 1, pp. 203-212.
- Raad, L., and Figueroa, J. L. (1980) “Load response of transportation support systems”, Journal of Transportation Engineering, Vol. 106, Number 1, pp. 111-128.
- Sanborn, J. L., and Yoder, E. J. (1967) “Stress and displacements in an elastic mass under semiellipsoidal loads”, International Conference of Structural Design of Asphalt Pavements, USA.
- Schiffman, R. L. (1962) “General analysis of stresses and displacements in layered elastic systems”, International Conference on the Structural Design of Asphalt Pavements, USA.
- Smola, A. J. and Schölkopf, B. (2004) “A tutorial on support vector regression”, Statistics and computing, Vol. 14, Number 3, pp. 199-222.
- Soltani, M., Moghaddam, T. B., Karim, M. R., Shamshirband, S. and Sudheer, C. (2015) “Stiffness performance of polyethylene terephthalate modified asphalt mixtures estimation using support vector machine-firefly algorithm”, Measurement, Vol. 63, pp. pp. 232-239.
- Terzi, S. (2013) “Modeling for pavement roughness using the ANFIS approach”, Advances in engineering software, Vol. 57, pp. 59-64.
- Uzan, J. (1994) “Advanced backcalculation techniques”, ASTM Special Technical Publication, ASTM STP, No. 1198, pp. 3–37.
- Wu, J., and Cheng, E. (2010) “A novel hybrid particle swarm optimization for feature selection and kernel optimization in support vector regression”, International Conference the Computational Intelligence and Security (CIS), Nanning, China.
- Xin, N., Gu, X., Wu, H., Hu, Y., and Yang, Z. (2012) “Application of genetic algorithm‐support vector regression (GA‐SVR) for quantitative analysis of herbal medicines”, Journal of Chemometrics, Vol. 26, Number 7, pp. 353-360.
- Yang, Y. and Zhang, Q. (1997) “A hierarchical analysis for rock engineering using artificial neural networks”, Rock Mechanics and Rock Engineering, Vol. 30, Number 4, pp. 207-222.
- Zheng, M., Han, L., Qiu, Z., Li, H., Ma, Q. and Che, F. (2016) “Simulation of permanent deformation in high-modulus asphalt pavement using the Bailey-Norton creep law”, Journal of Materials in Civil Engineering, Vol. 28, Number 7, pp. 1-11.