Even though the traffic flow of heavy vehicles has increased in Taiwan, the current flexible pavement design methods such as AASHTO and AI methods do not consider the effect of different vehicles, wheels on pavement performance from the mechanics point of view. Some researchers in Taiwan have started to investigate the structural response of pavement by using the multi-layer linear elastic theory, and the axisymmetric nonlinear finite element method. However, these approaches cannot consider the nonlinear behavior of material or the type of loading. In this study, a nonlinear model, which can represent the behavior of asphalt concrete, is incorporated with the 3-dimentional finite element method to investigate the structural response of pavement and the results are compared with the results from 2-dimentional finite element analysis. The stresses from the structural analysis are combined with the pavement distress models to predict the rutting and fatigue cracking of pavement, and compared with the measured distress. Finally, the distress from the 2-D and 3-D finite element methods are incorporated into the Present Serviceability Index equation to compute the PSI by the number of vehicle exposures.