With the rapid evolution of the display products, many technologies with a great potential and wide application will be attached importance for humans. The 3D display has been a very mature product; the resolution and crosstalk issue is no longer a troubling issue. In the next generation of 3D display, how to improve the stereoscopic perception and provide a more comfortable visual experience will be the future target of display technology. In conventional 3D display and cinema, the 3D image was emerged in front of the users, like a straight view zone. The stereoscopic perception is also relatively low. However, in recent years, the science fiction movies have many future technologies to bring people many impressive visual enjoyments, such as the movie Iron Man. In the movie Iron Man, the information and image display in the air and smooth interact with floating 3D images that also bring a great longing for human’s live. Nevertheless in nowadays, floating image confronts the issues on the inconvenience feature, limitation of application and the volumetric characteristic. The technology is not mature enough for the user-friendly requirement. Thus, how to let the floating 3D display technology can be widely used in general households, and apply the convenient and inexpensive displays to display the floating 3D images will be the focus of this thesis. In this thesis, we use the optical component to achieve the clear 3D image in oblique viewing angle on traditional binocular disparity into the floating 3D image. Thus, the definition of the floating image in this thesis is the observer can watch the corresponding 3D image in corresponding oblique viewing angle. The general monitor is applied in oblique angle that will encounter many problems, such as the significantly reduces of brightness, the blur (Crosstalk) problem increases ... etc. Therefore, the proposed micro-optical component, micro-prism, succeed to make the floating 3D image display in oblique viewing angle. In addition to this, the proposed special barrier design with zig-zag and arc shape structures also succeed to reduce the black stripe issue in parallax barrier display. We also discussed the different parameters in our measurement results. The proposed floating 3D display not only widely used in life, the interactive system will broad be used in the future.