In this thesis, we developed an algorithm which combines transfer matrix method and ray-tracing for the modeling of planar light-emitting devices with microlens array. It can calculate geometrical optics and wave optics characteristics in the LED and OLED simultaneously. We also discussed the effect of microlens array in light extraction efficiency and far field pattern. We calculated the out-coupling efficiency with 0~4 times reflection in structure. The out-coupling enhancement by microlens arrays is very limited when only first transmission is considered. Multiple reflections play critical roles in the enhancement, especially the second out-coupling due to the first reflection. In our simulation, we calculated three groups of actual OLED structures, finding the best structure of microlens array for light extraction efficiency. In our result, light extraction efficiency have 25% to 75% enhancement and normal far field intensity have 25% to 40% enhancement. We found that if the field pattern in substrate is concentrated around normal direction, higher enhancement is obtained from structures with lower height ratio. If the field pattern is dispersed, higher enhancement is obtained from structures with higher height ratio.