Nowadays, the 3D image processing has become a trend in the related visual processing field. Many automatic 2D to 3D conversion algorithms have been proposed to solve the lack of 3D content. But there is still no fast algorithm that converts single monocular images well. In this thesis, we propose a fast conversion algorithm that includes the image segmentation, image classification, object boundary tracing method, and 3D image generation. The image segmentation adopts the watershed method to easily collect the information of depth cue. Then, the image classification recovers the geometry of scene in the image. With the depth cue and geometry information, the object boundary tracing method is proposed to detect objects in image efficiently. Finally, the object result is used to generate depth map and 3D anaglyph image. To evaluate the results, we compare the stereo images with other 2D to 3D conversion systems. Experiment result shows that the proposed 2D to 3D conversion algorithm could perform better than the associated ones in the depth accuracy and processing speed for converting monocular images.