References
- AASHTO, 1993. Guide for design of pavement structure. Washington, DC: AASHTO.
- AASHTO, 2008. Mechanistic-empirical pavement design guide. Washington, DC: AASHTO.
- Abed, A., Thom, N., and Neves, L., 2019. Probabilistic prediction of asphalt pavement performance. Road Materials and Pavement Design. doi:10.1080/14680629.2019.1593229.
- Amin, M. S. R., 2015. The pavement performance modelling: deterministic vs. stochastic approaches. In: S. Kadry and A. E. Hami, eds. Numerical methods for reliability and safety assessment: multiscale and multi-physics Systems. Springer International Publishing Switzerland 2015, 179–196. doi:10.1007/978-3-319-07167-1-5.
- Arshad, A.K., Shaffie, E., and Ismail, F, 2018. Asphaltic concrete evaluation for mechanistic pavement design. International Journal of Civil Engineering and Technology (IJCIET), 9 (8), 513–521.
- Austroads, 1992. Pavement design – a guide to the structural design of road pavements. Austroads Publication No. AP-17/92.
- Bush, D, 2004. Incorporation of reliability into mechanistic-empirical pavement design in Washington and California. Seattle, WA: University of Washington. Available from: http://courses.washington.edu/kckapur/526/526projects/-DBush.pdf [Accessed 4 Jul 2020].
- Chua, K.H., Kiuredhian, A.D., and Monismith, C.L, 1992. Stochastic model for pavement design. Journal of Transportation Engineering (ASCE), 118 (6), 769–786.
- Dinegdae, Y.H., 2015. Reliability-based design procedure for flexible pavements. Thesis (PhD). KTH Royal Institute of Technology.
- Huang, Y, 2004. Pavement analysis and design. 2nd ed. Upper Saddle River, NJ: Prentice Hall.
- Hudson, R.W, 1975. State-of the art in predicting pavement reliability from input variability. Federal Aviation Administration Army Engineer Waterways Experiment Station, Report No. FAA-RD-75-207.
- IRC – Indian Roads Congress, 2012. Guidelines for the design of flexible pavements. 3rd Revision. New Delhi, India, IRC: 37-2012.
- Kalita, K, and Rajbongshi, P, 2015. Variability characterization of input parameters in pavement performance evaluation. Road Materials and Pavement Design, 16 (1), 172–185.
- Kenis, W., and Wang, W, 2004. Pavement variability and reliability. Available from: http://www. ksu.edu/pavements/trb/A2B09/CS13-12.pdf [Accessed 4 Jul 2020].
- Kim, H.B., and Buch, N, 2003. Reliability-based pavement design model accounting for inherent variability of design parameters. In: Transportation research board, 82nd annual meeting, Washington, DC.
- Kulkarni, R.B, 1994. Rational approach in applying reliability theory to pavement structural design. TRB, National Research Council, 13–17, Transportation Research Record, No.1449.
- Li, S., Li, Y., and Metcalf, J.B, 2002. Enhancement of asphalt pavement evaluation using Monte Carlo simulation and accelerated pavement testing. Journal of Testing and Evaluation (JTEVA), 30, 392–399.
- Long, N.H., 2011. Study on reliability issues of flexible pavements and airport runways. Thesis (PhD). University of Transport Technology.
- Luo, Z., et al., 2018. Effect of uncertain material property on system reliability in mechanistic-empirical pavement design. Construction and Building Materials, 172, 488–498.
- Luo, Z., Xiao, F., and Sharma, R, 2014. Efficient reliability-based approach for mechanistic-empirical asphalt pavement design. Construction and Building Materials, 64, 157–165.
- Maji, A., and Das, A, 2008. Reliability considerations of bituminous pavement design by mechanistic-empirical approach. International Journal of Pavement Engineering, 9 (1), 19–31.
- Masad, E., and Scarpas, A, 2007. Toward a mechanistic approach for analysis and design of asphalt pavements. International Journal of Geomechanics (ASCE), 7 (2), 81–83.
- Mohamed, E.H., and Nofal, M, 1997. Mechanistic approach to pavement analysis. In: Advanced technologies in asphalt pavement engineering, August 1997, Chun Chon, Korea, 21–49.
- Newcomb, D.E., and Timm, D.H, 2001. Mechanistic pavement design. In: Hot mix asphalt technology. System Reliability Framework, 49–51.
- Peddinti, P.R.T., Basha, B.M., and Saride, S, 2020. System reliability framework for design of flexible pavements. Journal of Transportation Engineering, Part B: Pavements (ASCE), 146, 3.
- Rajbongshi, P, 2014. Reliability based cost effective design of asphalt pavements considering fatigue and rutting. International Journal of Pavement Research and Technology, 7 (2), 153–158.
- Retherford, J.Q., and McDonald, M, 2010. Reliability methods applicable to mechanistic-empirical pavement design method. Transportation Research Record: Journal of the Transportation Research Board, 2154, 130–137. doi:10.3141/2154-13.
- Saride, S., Peddinti, P.R.T., and Basha, M.B, 2019. Reliability perspective on optimum design of flexible pavements for fatigue and rutting performance. Journal of Transportation Engineering, Part B: Pavements, 145, 2.
- Standard 22TCN-211-06, 2006. Flexible pavement – requirements and design guidelines. Ministry of Transport of Vietnam.
- TCVN 8867: 2011, 2011. Flexible pavement – Standard test method for determination of elastic modulus of pavement structure using Benkelman beam. Ministry of Science and Technology.
- Thongram, S., and Rajbongshi, P, 2016. Probability and reliability aspects in pavement engineering. International Journal of Latest Technology in Engineering, Management & Applied Science, 5 (3), 14–18.
- Valle, P.D., 2015. Reliability in pavement design. Thesis (PhD). University of Nottingham.
- Valle, P.D., and Thom, N, 2015. Variability in pavement design. The International Journal of Pavement Engineering and Asphalt Technology (PEAT), 16 (2), 50–67.
- Valle, P.D., and Thom, N, 2018. Pavement layer thickness variability evaluation and effect on performance life. International Journal of Pavement Engineering. doi:10.1080/10298436.2018.1517873.