In the age of information and communication, we receive most of the information in our lives through our vision. We read text messages, watch videos, and see pictures. All these kinds of information are presented by display devices and perceived by our eyes. Therefore, the display technology plays an important role in our daily lives. With the development of display technology, 3D display has become more and more common. It applies not only to large-scaled displays, such as movies and television but also on portable devices. As a consequence, the human-machine interface would definitely evolve into 3D interactive system. Moreover, the traditional 3D display technology provides only direct-viewing 3D images, which is not intuitive for users to interact with. Therefore, floating display was introduced. Users can see the 3D images from oblique viewing angle and interact with the images easily. Hence, we believe the floating 3D display will become the future. Traditional 3D display technology utilizes binocular disparity to cheat our brain feeling like seeing 3D object. Despite its high resolution and well-development, users would have visual fatigue and discomfort for long-time watching. In recent years, a new technology, light field, is developed rapidly. By recording and reconstructing the light field, this technology can reconstruct a real image with several directional beams crossing over in the space. Currently, the light field technology is implemented by integral imaging (In.Im.). It uses pinhole array or microlens array (MLA) as a spatial light modulator to manipulate the direction of light. The setup we discuss in this dissertation is a flat display panel with an MLA putting on it, and a designed pattern is displayed on the panel. There are two main issues in this dissertation. One is to analyze the spatial resolution limitation along the depth direction of an MLA based In.Im. system. The other is to propose a viewing-zone combining method to increase the viewing angle of the In.Im. system by about 5 times with combing 5 viewing zones, and so on.