In recent years, three-dimensional (3D) technologies are popular research topics, especially the issues of 3D imaging and 3D projection. With regards to 3D imaging, integral imaging has been considered one of the most prominent autostereoscopic techniques. The optical system of integral imaging is composed of a microlens array and a photosensor. The microlens array is the key element for capturing the 3D information, which is used to encode the angular information into the photosensor. The 3D information can be applied to image processing, such as depth reconstruction and digital refocusing. To analyze the elemental image through the microlens array in this research work, the optical system was simulated using LightTools, an optical simulation software tool. Moreover, new types of microlens arrays were designed, including achromatic microlens on different wavelength. The simulation results and the reconstructed images are discussed in this thesis. On the other hand, there are many methods to realize 3D projection. However, most of them require screens; and 3D projection without screens is challenging. In this research work, the technique of using. 3D projection in automobile head-up display (HUD) was studied. A 3D projection system called Mirage was used to design the new type of HUD. Through the analysis and simulations using LightTools, the HUD-Mirage is proposed in this thesis. The simulation using LightTools is helpful for analyzing the feasibility of the design ideas. In additions, it can reduce the fabrication budget and time.